Tektronix MSO64B, MSO66B, MSO68B Installation Manual

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6 Series B Mixed Signal Oscilloscope MSO6xB

Installation and Safety Manual

6 シリーズ B ミックスド・シグナル・オシロスコープ MSO6xB 型

設置と安全性に関するマニュアル

6 系列

B 混合信号示波器

MSO6xB

安装和安全手册

*P071374900*

071-3749-00

6 Series B Mixed Signal Oscilloscope MSO6xB

Installation and Safety Manual

Warning

The servicing instructions are for use by qualified personnel only. To avoid personal injury, do not perform any servicing unless you are qualified to do so. Refer to all safety summaries prior to performing service.

Supports 6 Series B MSO product firmware V1.28 and above

www.tek.com

071-3749-00

Copyright © Tektronix. All rights reserved. Licensed software products are owned by Tektronix or its subsidiaries or suppliers, and are protected by national copyright laws and international treaty provisions. Tektronix products are covered by U.S. and foreign patents, issued and pending. Information in this publication supersedes that in all previously published material. Specifications and price change privileges reserved.

TEKTRONIX and TEK are registered trademarks of Tektronix, Inc.

Contacting Tektronix

Tektronix, Inc.

14150 SW Karl Braun Drive P.O. Box 500 Beaverton, OR 97077 USA

For product information, sales, service, and technical support:

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In North America, call 1-800-833-9200.

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Worldwide, visit www.tek.com to find contacts in your area.

Important safety information ................................................................................................................................ iii

General safety summary ................................................................................................................................ iii

Service safety summary ................................................................................................................................. v

Terms in the manual ...................................................................................................................................... vi

Terms on the product .................................................................................................................................... vi

Symbols on the product ................................................................................................................................. vi

Compliance Information ...................................................................................................................................... vii

EMC compliance ........................................................................................................................................... vii

Safety compliance ........................................................................................................................................ viii

Environmental compliance ............................................................................................................................ ix

Preface ................................................................................................................................................................ xi

Key features .................................................................................................................................................. xi

Related documents ....................................................................................................................................... xii

Installing your instrument

Check shipped accessories ........................................................................................................................... 1

Safely rotate the handle ................................................................................................................................. 1

Operating requirements ................................................................................................................................. 2

Input signal requirements ............................................................................................................................... 2

Secure (lock) the instrument .......................................................................................................................... 3

Powering the instrument ................................................................................................................................ 3

Check that the instrument passes power-on self tests ................................................................................... 4

Connecting probes to the instrument ............................................................................................................. 4

Rackmount option information ....................................................................................................................... 5

Getting acquainted with your instrument

Front panel controls and connectors, 4/5/6 Series MSO ............................................................................... 7

Rear panel connections ............................................................................................................................... 14

The user interface screen ............................................................................................................................ 15

The user interface elements ......................................................................................................................... 16

Badges ......................................................................................................................................................... 20

Configuration menus .................................................................................................................................... 28

The Zoom user interface elements .............................................................................................................. 30

Using the touch screen interface for common tasks .................................................................................... 31

MSO6B Installation and Safety Manual

Table of Contents

Configure the instrument

Set the time zone and clock readout format ................................................................................................. 33

Download and install the latest instrument firmware .................................................................................... 33

Run Signal Path Compensation (SPC) ........................................................................................................ 34

Compensate the TPP Series probes ............................................................................................................ 35

Connect to a network (LAN) ......................................................................................................................... 37

Operating basics

Add a channel waveform to the display ....................................................................................................... 39

Configure channel or waveform settings ...................................................................................................... 40

Quickly display a waveform (Autoset) .......................................................................................................... 41

How to trigger on a signal ............................................................................................................................ 42

Set the acquisition mode .............................................................................................................................. 43

Set Horizontal parameters ........................................................................................................................... 44

Add a math, reference, or bus waveform ..................................................................................................... 45

Add a measurement ..................................................................................................................................... 46

Configure a measurement ............................................................................................................................ 48

Add a plot of a measurement ....................................................................................................................... 49

Add a Search ............................................................................................................................................... 51

Delete a Measurement or Search badge ..................................................................................................... 52

Change waveform view settings .................................................................................................................. 53

Display and configure cursors ...................................................................................................................... 53

e*Scope® remote access from a Web browser (standard instrument) ........................................................ 56

Connect the oscilloscope to a PC using a USB cable .................................................................................. 57

Cleaning the instrument

Cleaning ....................................................................................................................................................... 59

ii MSO6B Installation and Safety Manual

Important safety information

This manual contains information and warnings that must be followed by the user for safe operation and to keep the product in a safe condition.

To safely perform service on this product, see the Service safety summary that follows the General safety summary.

General safety summary

Use the product only as specified. Review the following safety precautions to avoid injury and prevent damage to this product or any products connected to it. Carefully read all instructions. Retain these instructions for future reference.

This product shall be used in accordance with local and national codes.

For correct and safe operation of the product, it is essential that you follow generally accepted safety procedures in addition to the safety precautions specified in this manual.

The product is designed to be used by trained personnel only.

Only qualified personnel who are aware of the hazards involved should remove the cover for repair, maintenance, or adjustment.

Before use, always check the product with a known source to be sure it is operating correctly.

This product is not intended for detection of hazardous voltages.

Use personal protective equipment to prevent shock and arc blast injury where hazardous live conductors are exposed.

While using this product, you may need to access other parts of a larger system. Read the safety sections of the other component manuals for warnings and cautions related to operating the system.

When incorporating this equipment into a system, the safety of that system is the responsibility of the assembler of the system.

To avoid fire or personal injury

Use proper power cord. Use only the power cord specified for this product and certified for the country of use. Do not use the

provided power cord for other products.

Ground the product. This product is grounded through the grounding conductor of the power cord. To avoid electric shock, the grounding conductor must be connected to earth ground. Before making connections to the input or output terminals of the product, ensure that the product is properly grounded. Do not disable the power cord grounding connection.

Power disconnect. The power cord disconnects the product from the power source. See instructions for the location. Do not position the equipment so that it is difficult to operate the power cord; it must remain accessible to the user at all times to allow for quick disconnection if needed.

Connect and disconnect properly. Do not connect or disconnect probes or test leads while they are connected to a voltage source. Use only insulated voltage probes, test leads, and adapters supplied with the product, or indicated by Tektronix to be suitable for the product.

Observe all terminal ratings. To avoid fire or shock hazard, observe all rating and markings on the product. Consult the product manual for further ratings information before making connections to the product. Do not exceed the Measurement Category (CAT) rating and voltage or current rating of the lowest rated individual component of a product, probe, or accessory. Use caution when using 1:1 test leads because the probe tip voltage is directly transmitted to the product.

Do not apply a potential to any terminal, including the common terminal, that exceeds the maximum rating of that terminal.

Do not float the common terminal above the rated voltage for that terminal.

The measurement terminals on this product are not rated for connection to mains or Category II, III, or IV circuits.

MSO6B Installation and Safety Manual

iii

Important safety information

Do not operate without covers. Do not operate this product with covers or panels removed, or with the case open. Hazardous voltage exposure is possible.

Avoid exposed circuitry. Do not touch exposed connections and components when power is present.

Do not operate with suspected failures. If you suspect that there is damage to this product, have it inspected by qualified

service personnel.

Disable the product if it is damaged. Do not use the product if it is damaged or operates incorrectly. If in doubt about safety of the product, turn it off and disconnect the power cord. Clearly mark the product to prevent its further operation.

Before use, inspect voltage probes, test leads, and accessories for mechanical damage and replace when damaged. Do not use probes or test leads if they are damaged, if there is exposed metal, or if a wear indicator shows.

Examine the exterior of the product before you use it. Look for cracks or missing pieces.

Use only specified replacement parts.

Do not operate in wet/damp conditions. Be aware that condensation may occur if a unit is moved from a cold to a warm environment.

Do not operate in an explosive atmosphere.

Keep product surfaces clean and dry. Remove the input signals before you clean the product.

Provide proper ventilation. Refer to the installation instructions in the manual for details on installing the product so it has

proper ventilation.

Slots and openings are provided for ventilation and should never be covered or otherwise obstructed. Do not push objects into any of the openings.

Provide a safe working environment. Always place the product in a location convenient for viewing the display and indicators.

Avoid improper or prolonged use of keyboards, pointers, and button pads. Improper or prolonged keyboard or pointer use may result in serious injury.

Be sure your work area meets applicable ergonomic standards. Consult with an ergonomics professional to avoid stress injuries.

Use care when lifting and carrying the product. This product is provided with a handle or handles for lifting and carrying.

Use only the Tektronix rackmount hardware specified for this product.

Probes and test leads

Before connecting probes or test leads, connect the power cord from the power connector to a properly grounded power outlet.

Keep fingers behind the protective barrier, protective finger guard, or tactile indicator on the probes.

Remove all probes, test leads and accessories that are not in use.

Use only correct Measurement Category (CAT), voltage, temperature, altitude, and amperage rated probes, test leads, and adapters for any measurement.

iv MSO6B Installation and Safety Manual

Important safety information

Beware of high voltages. Understand the voltage ratings for the probe you are using and do not exceed those ratings. Two ratings are important to know and understand:

■

The maximum measurement voltage from the probe tip to the probe reference lead

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The maximum floating voltage from the probe reference lead to earth ground

These two voltage ratings depend on the probe and your application. Refer to the Specifications section of the manual for more information.

WARNING. To prevent electrical shock, do not exceed the maximum measurement or maximum floating voltage for the oscilloscope input BNC connector, probe tip, or probe reference lead.

Connect and disconnect properly. Connect the probe output to the measurement product before connecting the probe to the circuit under test. Connect the probe reference lead to the circuit under test before connecting the probe input. Disconnect the probe input and the probe reference lead from the circuit under test before disconnecting the probe from the measurement product.

Connect and disconnect properly. De-energize the circuit under test before connecting or disconnecting the current probe.

Connect the probe reference lead to earth ground only.

Do not connect a current probe to any wire that carries voltages or frequencies above the current probe voltage rating.

Inspect the probe and accessories. Before each use, inspect probe and accessories for damage (cuts, tears, or defects in the probe body, accessories, or cable jacket). Do not use if damaged.

Ground-referenced oscilloscope use. Do not float the reference lead of this probe when using with ground-referenced oscilloscopes. The reference lead must be connected to earth potential (0 V).

Floating measurement use. Do not float the reference lead of this probe above the rated float voltage.

Risk assessment warnings and information

Service safety summary

The Service safety summary section contains additional information required to safely perform service on the product. Only qualified personnel should perform service procedures. Read this Service safety summary and the General safety summary before performing any service procedures.

To avoid electric shock. Do not touch exposed connections.

Do not service alone. Do not perform internal service or adjustments of this product unless another person capable of rendering

first aid and resuscitation is present.

Disconnect power. To avoid electric shock, switch off the product power and disconnect the power cord from the mains power before removing any covers or panels, or opening the case for servicing.

Use care when servicing with power on. Dangerous voltages or currents may exist in this product. Disconnect power, remove battery (if applicable), and disconnect test leads before removing protective panels, soldering, or replacing components.

Verify safety after repair. Always recheck ground continuity and mains dielectric strength after performing a repair.

MSO6B Installation and Safety Manual v

Important safety information

Terms in the manual

These terms may appear in this manual:

WARNING. Warning statements identify conditions or practices that could result in injury or loss of life.

CAUTION. Caution statements identify conditions or practices that could result in damage to this product or other property.

Terms on the product

These terms may appear on the product:

■

DANGER indicates an injury hazard immediately accessible as you read the marking.

■

WARNING indicates an injury hazard not immediately accessible as you read the marking.

■

CAUTION indicates a hazard to property including the product.

Symbols on the product

When this symbol is marked on the product, be sure to consult the manual to find out the nature of the potential hazards and any actions which have to be taken to avoid them. (This symbol may also be used to refer the user to ratings in the manual.)

The following symbols may appear on the product:

vi MSO6B Installation and Safety Manual

Compliance Information

This section lists the EMC (electromagnetic compliance), safety, and environmental standards with which the instrument complies. This product is intended for use by professionals and trained personel only; it is not designed for use in households or by children.

Questions about the following compliance information may be directed to the following address:

Tektronix, Inc.

PO Box 500, MS 19-045

Beaverton, OR 97077, USA

www.tek.com

EMC compliance

EU EMC Directive

Meets intent of Directive 2014/30/EU for Electromagnetic Compatibility. Compliance was demonstrated to the following specifications as listed in the Official Journal of the European Communities:

EN 61326-1, EN 61326-2-1. EMC requirements for electrical equipment for measurement, control, and laboratory use.

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CISPR 11. Radiated and conducted emissions, Group 1, Class A

1 2 3 4

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IEC 61000-4-2. Electrostatic discharge immunity

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IEC 61000-4-3. RF electromagnetic field immunity

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IEC 61000-4-4. Electrical fast transient / burst immunity

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IEC 61000-4-5. Power line surge immunity

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IEC 61000-4-6. Conducted RF immunity

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IEC 61000-4-8. Power frequency magnetic field immunity test

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IEC 61000-4-11. Voltage dips and interruptions immunity

EN 61000-3-2. AC power line harmonic emissions

EN 61000-3-3. Voltage changes, fluctuations, and flicker

This product is intended for use in nonresidential areas only. Use in residential areas may cause electromagnetic interference.

Emissions which exceed the levels required by this standard may occur when this equipment is connected to a test object.

For compliance with the EMC standards listed here, high quality shielded interface cables that incorporate low impedance connection between the cable shield and the connector shell should be used.

Writer: Add text here to list any conditions where the EUT takes longer than 10 seconds to recover from a performance criterion B transient immunity test.

Writer: Add text here to list any special measures that have to be taken to achieve conformance to this standard.

MSO6B Installation and Safety Manual vii

Compliance Information

EU EMC Directive

Meets intent of Directive 2014/30/EU for Electromagnetic Compatibility. Compliance was demonstrated to the following specifications as listed in the Official Journal of the European Communities:

Australia / New Zealand Declaration of Conformity – EMC

Complies with the EMC provision of the Radiocommunications Act per the following standard, in accordance with ACMA:

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EN 61326-1 and EN 61326-2-1. Radiated and conducted emissions, Group 1, Class A.

Safety compliance

This section lists the safety standards with which the product complies and other safety compliance information.

EU declaration of conformity – low voltage

Compliance was demonstrated to the following specification as listed in the Official Journal of the European Union:

Low Voltage Directive 2014/35/EU.

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EN 61010-1. Safety Requirements for Electrical Equipment for Measurement, Control, and Laboratory Use – Part 1: General Requirements.

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EN 61010-2-030. Safety Requirements for Electrical Equipment for Measurement, Control, and Laboratory Use – Part 2-030: Particular requirements for testing and measuring circuits.

U.S. nationally recognized testing laboratory listing

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UL 61010-1. Safety Requirements for Electrical Equipment for Measurement, Control, and Laboratory Use – Part 1: General Requirements.

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UL 61010-2-030. Safety Requirements for Electrical Equipment for Measurement, Control, and Laboratory Use – Part 2-030: Particular requirements for testing and measuring circuits.

Canadian certification

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CAN/CSA-C22.2 No. 61010-1. Safety Requirements for Electrical Equipment for Measurement, Control, and Laboratory Use – Part 1: General Requirements.

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CAN/CSA-C22.2 No. 61010-2-030. Safety Requirements for Electrical Equipment for Measurement, Control, and Laboratory Use – Part 2-030: Particular requirements for testing and measuring circuits.

Additional compliances

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IEC 61010-1. Safety Requirements for Electrical Equipment for Measurement, Control, and Laboratory Use – Part 1: General Requirements.

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IEC 61010-2-030. Safety Requirements for Electrical Equipment for Measurement, Control, and Laboratory Use – Part 2-030: Particular requirements for testing and measuring circuits.

Equipment type

Test and measuring equipment.

viii MSO6B Installation and Safety Manual

Compliance Information

Safety class

Class 1 – grounded product.

Safety certification of plug-in or VXI modules

The safety certification is valid only when installed in an appropriately approved (by a USA NRTL or a Canada Certified Organization) mainframe.

Pollution degree description

A measure of the contaminants that could occur in the environment around and within a product. Typically the internal environment inside a product is considered to be the same as the external. Products should be used only in the environment for which they are rated.

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Pollution Degree 1. No pollution or only dry, nonconductive pollution occurs. Products in this category are generally encapsulated, hermetically sealed, or located in clean rooms.

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Pollution Degree 2. Normally only dry, nonconductive pollution occurs. Occasionally a temporary conductivity that is caused by condensation must be expected. This location is a typical office/home environment. Temporary condensation occurs only when the product is out of service.

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Pollution Degree 3. Conductive pollution, or dry, nonconductive pollution that becomes conductive due to condensation. These are sheltered locations where neither temperature nor humidity is controlled. The area is protected from direct sunshine, rain, or direct wind.

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Pollution Degree 4. Pollution that generates persistent conductivity through conductive dust, rain, or snow. Typical outdoor locations.

Pollution degree rating

Pollution Degree 2 (as defined in IEC 61010-1). Note: Rated for indoor, dry location use only.

IP rating

IP20 (as defined in IEC 60529).

Mains overvoltage category rating

Overvoltage Category II (as defined in IEC 61010-1)

Environmental compliance

This section provides information about the environmental impact of the product.

Restriction of hazardous substances

Complies with RoHS2 Directive 2011/65/EU.

MSO6B Installation and Safety Manual ix

Compliance Information

Product end-of-life handling

Observe the following guidelines when recycling an instrument or component:

Equipment recycling. Production of this equipment required the extraction and use of natural resources. The equipment may contain substances that could be harmful to the environment or human health if improperly handled at the product’s end of life. To avoid release of such substances into the environment and to reduce the use of natural resources, we encourage you to recycle this product in an appropriate system that will ensure that most of the materials are reused or recycled appropriately.

This symbol indicates that this product complies with the applicable European Union requirements according to Directives 2012/19/EU and 2006/66/EC on waste electrical and electronic equipment (WEEE) and batteries. For information about recycling options, check the Tektronix Web site (www.tek.com/productrecycling).

This product contains a small installed lithium metal button cell. Please properly dispose of or recycle the cell at its end of life according to local government regulations.

Perchlorate materials. This product contains one or more type CR lithium batteries. According to the state of California, CR lithium batteries are classified as perchlorate materials and require special handling. See dtsc.ca.gov/perchlorate for additional information.

Transporting batteries

The small lithium primary button cell contained in this equipment does not exceed 1 gram of lithium metal content per cell, and the cell type has been shown by the manufacturer to comply with the applicable requirements of the UN Manual of Tests and Criteria Part III, Sub-section 38.3. Consult your carrier to determine which lithium battery transportation requirements are applicable to your configuration, including to its re-packaging and re-labeling, prior to reshipment of the product by any mode of transport

x MSO6B Installation and Safety Manual

Preface

This manual provides product safety and compliance information, describes how to connect and power on the oscilloscope, and introduces the instrument features, controls and basic operations. See the product Help file for more detailed information.

Key features

Welcome to the 6 Series B MSO. The 6 Series B MSO oscilloscopes include FlexChannel® inputs, enabling you to efficiently and cost-effectively perform mixed signal debugging on virtually any design.

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Bandwidths from 1 GHz to 10 GHz

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4, 6, or 8 channels with FlexChannel® inputs

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Each FlexChannel input is dual-purpose, letting you connect either an analog probe (TekVPI® or BNC) or an eight-channel digital probe (the TLP058 FlexChannel Logic Probe)

■

Each FlexChannel can display 8 digital channels (with TLP058), an analog waveform, a spectrum view, or both an analog and spectral view of the same channel at the same time with independent controls for each view

■

FlexChannel inputs are compatible with TekVPI® probes

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Large 15.6” HD (1920 x 1080 pixel) capacitive touch-screen display

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User interface designed to optimize touch screen use and quickly access key settings

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Stacked mode places each channel or waveform in its own horizontal 'slice' on the screen, allowing for cleaner signal viewing and measuring

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Maximum 50 GS/s sample rate

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62.5 M points record length on all channels (optional 125 M, 250 M, 500 M, and 1 G record lengths available)

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>500,000 waveforms/second maximum waveform capture rate

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Spectrum View enables simple, intuitive frequency domain analysis, independent of time domain controls, to show a spectral trace for each channel

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No set limit on the number of math, reference, and bus waveforms you can display (the number of waveforms depends on available system memory)

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Integrated optional features include a 50 MHz arbitrary function generator (AFG), and a DVM and trigger frequency counter

■

Optional serial triggering features enable you to isolate protocol-level events of interest in common aerospace, audio, automotive, computer, and embedded serial buses. See the Serial bus and trigger options topic in the instrument embedded Help, or the 6 Series MSO Serial Triggering and Analysis Applications Datasheet (Tektronix part number 48W-61353-x) for more information

■

Power, DPM, IMDA, and Jitter options provide additional measurement and analysis functions. See the Advanced Power Analysis, DPM Analysis, and Advanced Jitter Analysis Help topics

NOTE. IMDA (MSO64B and MSO68B) option is available on 6 and 8 channels.

MSO6B Installation and Safety Manual xi

Preface

Installing your instrument

Check shipped accessories

Make sure that you received everything you ordered. If anything is missing, contact Tektronix Customer Support. In North America, call 1-800-833-9200. Worldwide, visit www.tek.com to find contacts in your area.

Check the packing list that came with your instrument to verify that you have received all standard accessories and ordered items. If you purchased factory installed options such as a Serial Bus and Triggering option, or the Power measurements option, tap Help > About to confirm that the option(s) are listed in the Installed Options table.

Safely rotate the handle

Use the correct process to eliminate the chance of pinching your thumb or rear-panel-connected cables while rotating the handle.

CAUTION. Hold the top of the handle to rotate the handle on the instrument. Do not hold the handle from the sides and rotate, as this can pinch the base of your thumb between the handle and the case.

If you have routed any cables between the handle and the case, be careful when rotating the handle so that you do not pinch the cables.

MSO6B Installation and Safety Manual 1

Installing your instrument

Operating requirements

Use the instrument within the required operating temperature, power, altitude, and signal input voltage ranges to provide the most accurate measurements and safe instrument operation.

Environment requirements

Characteristic Description

Operating temperature 0 °C to +50 °C (+32 °F to +122 °F)

For proper cooling, keep the sides of the instrument clear of obstructions for 2 inches (51 mm).

Operating humidity 5% to 90% relative humidity at temperatures up to +40°C

5% to 55% relative humidity at temperatures greater than +40°C and up to +50°C, non-condensing 5% to 90% relative humidity at temperatures up to +60°C, non-condensing, and as limited by a maximum wet-bulb temperature of +39°C.

Operating altitude Up to 3000 meters (9842 feet)

Power requirements

Characteristic Description

Power source voltage 100 V - 240 V

Power source frequency 50/60 Hz, 100-240 V

Power consumption All models: 500 W maximum

Input signal requirements

Keep the input signals within allowed limits to ensure the most accurate measurements and prevent damage to the analog and digital probes or instrument.

Make sure that input signals connected to 5/6 Series MSO instruments are within the following requirements.

Input Description

Analog input channels, 1 MΩ setting, maximum input voltage at BNC

Analog input channels, 50 Ω setting, maximum input voltage at BNC

Digital input channels, maximum input voltage range at digital inputs

Ref In maximum input voltage at BNC (rear panel) 7 V

Aux In trigger input (MSO6B and MSO58LP) ±5 V

400 Hz, 115 V

300 V For 6 Series B MSO: Transient Overvoltage is 0 V. The measuring terminals on this product are not rated for connection to mains or Category II, III, or IV circuits.

2.3V RMS, at < 100mV/div, with peaks 20V (Pulse Width <= 1us).

5.5V RMS, at >= 100mV/div, with peaks 20V (Pulse Width <= 200us). For 6 Series B MSO and 6 Series LPD: Transient Overvoltage is 0 V. The measuring terminals on this product are not rated for connection to mains or Category II, III, or IV circuits.

Observe probe ratings TLP058; ±42 V

, ±10%, single phase

AC RMS

RMS

2 MSO6B Installation and Safety Manual

Installing your instrument

Secure (lock) the instrument

Lock an instrument to a test bench or equipment rack to prevent property loss.

Attach a standard laptop security lock to the rear panel of the instrument, to secure the instrument to a workbench, rack, or other location.

Powering the instrument

Use this procedure to connect the instrument to line power and power on and off the instrument. Always connect the instrument to AC power using the power cord that shipped with the instrument.

Prerequisite: Use the AC power cord that shipped with your instrument.

1. Connect the supplied power cord to the instrument power connector on the back of the instrument.

Figure 1: MSO6 Series B power cord connector and power standby switch

2. Connect the power cord to an appropriate AC mains source.

Power is supplied to the power supply and some other boards whenever the AC power cord is connected to a live mains circuit, putting the instrument in standby mode.

3. Push the front panel power button to power the instrument on and off.

The power button color indicates instrument power states:

Unlit – no AC power applied

Yellow – standby mode

Blue – powered on

4. To completely remove power from the instrument, disconnect the power cord.

5. To transport the instrument with its power cord, flip out the power cord supports on the upper edge of the rear panel and

wrap the power cord around the supports.

MSO6B Installation and Safety Manual 3

Installing your instrument

Check that the instrument passes power-on self tests

Power-on self tests verify that all instrument modules are working correctly after power up.

1. Power on the instrument and wait until the instrument screen appears.

2. Select Utility > Self Test from the top-edge Menu bar to open the Self Test configuration menu.

3. Check that the status of all power-on self tests are Passed.

If one or more power-on self tests shows Failed:

a. Power cycle the instrument.

b. Tap Utility > Self Test. If one or more power-on self tests still shows Failed, contact Tektronix Customer Support.

Connecting probes to the instrument

Probes connect the instrument to your device under test (DUT). Use a probe that best matches your signal measurement needs.

Series

Figure 2: Connecting probes to the MSO6B

4 MSO6B Installation and Safety Manual

Installing your instrument

Connecting Probes

Connect TPP Series, TekVPI+, TekVPI, or other supported Tektronix analog probes by pushing them into a FlexChannel connector. The probe base latch locks with a 'click' when the probe is fully seated.

TekVPI probes automatically set the channel input parameters for that probe (bandwidth, attenuation, termination, and so on). If a probe has a Menu button, push that button to open an on-screen configuration menu. Follow instructions provided with active probes to set their parameters (auto zero, degauss, and so on).

To connect a TLP058 FlexChannel Logic Probe or a TDP7700 Series TriMode™ Probe:

1. Move the locking lever to the unlocked position, then let go to reset locking lever to the center position.

2. Insert the probe into a FlexChannel connector until fully seated and the lock mechanism clicks.

3. Move the locking lever to the locked position. The status light should be a solid green.

4. To disconnect the TLP058 probe, move and hold the locking lever at the unlocked position and pull out the probe. Do not

pull on the ribbon cable while removing the probe.

Connect a BNC probe or cable by pushing it onto a channel BNC bayonet connector and turn the lock mechanism clockwise until it locks.

NOTE. Connecting a probe does not automatically enable that channel (make it active). Use the instrument controls or programmatic interface to turn on a channel and open its configuration menu to verify or change probe or cable settings (bandwidth, attenuation, termination and so on).

Rackmount option information

An optional rackmount kit lets you install the oscilloscope in standard equipment racks. The rackmount kit requires seven rack units (7U) of space to install.

Please refer to your product's datasheet at www.tek.com for information on rackmount options.

MSO6B Installation and Safety Manual 5

Installing your instrument

6 MSO6B Installation and Safety Manual

Getting acquainted with your instrument

The following content provides a high-level description of the instrument controls and user interface.

Refer to the instrument help for detailed information on using the controls and user interface to display waveforms and take measurements.

Front panel controls and connectors, 4/5/6 Series MSO

The front panel controls provide direct access to key instrument settings such as vertical, horizontal, trigger, cursors, and zoom. The connectors are where you input signals with probes or cables, or insert USB devices.

Figure 3: 6 Series B MSO controls

1. Acquisition and Cursors controls:

MSO6B Installation and Safety Manual 7

Getting acquainted with your instrument

■

Run/Stop starts and stops waveform acquisition. The button color indicates the acquisition status (green = running and acquiring; red = stopped). When stopped, the oscilloscope shows waveforms from the last completed acquisition. The Run/Stop button on the screen also shows the acquisition status.

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Cursors button turns screen cursors on or off. Use the Multipurpose knobs to move the cursors. Double-tap the cursor readouts, or on a cursor bar (line), to open the configuration menu to set cursor types and functionality. See Display

and configure cursors on page 53.

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Fast Acq™ enables or disables the fast acquisition mode. FastAcq provides high-speed waveform capture that

reduces the dead time between waveform acquisitions, enabling the capture and display of transient events such as glitches and runt pulses. It is helpful in finding elusive signal anomalies. Fast acquisition mode can also display waveform phenomena at an intensity that reflects their rate of occurrence.

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Single/Seq enables making a single waveform acquisition, or a specified number of acquisitions (as set in the Acquisition configuration menu). Pushing Single/Seq turns off Run/Stop mode and takes a single acquisition. The

button color indicates the acquisition status (quick green flash = single acquisition acquired; solid green = waiting for trigger event). Pushing Single/Seq again takes another single acquisition.

■

High Res applies unique finite impulse response (FIR) filters based on the current sample rate. This FIR filter maintains the maximum bandwidth possible for that sample rate while rejecting aliasing. The filter removes noise from the oscilloscope amplifiers and ADC above the usable bandwidth for the selected sample rate. Implementation of the filter in hardware, ahead of the trigger and storage, reduces trigger jitter and enables using Fast Acq mode while in

High Res mode.

High Res mode also guarantees at least 12 bits of vertical resolution. The number of bits of resolution is displayed in

the Acquisition badge at the bottom of the screen. The Horizontal badge also updates to show the sample rate and record length settings while in High Res mode.

■

Clear deletes the current acquisitions and measurement values from memory.

2. Multipurpose knobs:

■

Multipurpose knobs (A, B) The Multipurpose knobs A and B move cursors and set parameter values in configuration menu input fields. Selecting an menu field that can use a Multipurpose knob assigns the indicated knob to change the value in that input field. The ring around each knob lights when you can use that knob to do an action.

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Push a Multipurpose knob to enable the Fine mode for making smaller increment changes. Push the knob again to exit

Fine mode.

3. Trigger controls:

■

Force forces a trigger event at a random point in the waveform and captures the acquisition.

■

Level sets the amplitude level that the signal must pass through to be considered a valid transition. The color of the Level knob LED indicates the trigger source except for dual-level triggers.

The Level knob is disabled when the trigger type requires two level settings or other trigger qualifiers (set from the Trigger configuration menu). Push the knob to set the threshold level to 50% of the peak-to-peak amplitude range of

the signal.

■

Slope sets the signal transition direction to detect for a trigger (low to high, high to low, or either direction). Push the button to cycle through the selections. The Slope button is disabled when the trigger type requires other slope qualifiers (set from the Trigger configuration menu).

■

Mode sets how the instrument behaves in the absence or presence of a trigger event:

■

Auto trigger mode enables the instrument to acquire and display a waveform whether or not a trigger event occurs. If a trigger event occurs, the instrument displays a stable waveform. If a trigger event does not occur, the instrument forces a trigger event and acquisition and displays an unstable waveform.

■

Normal trigger mode sets the instrument to acquire and display a waveform only when there is a valid trigger event. If no trigger occurs, the last waveform record acquired remains on the display. If no last waveform exists, no waveform is displayed.

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4. Vertical controls:

■

Position moves the selected waveform (Channel, Math, Reference, Bus) and its graticule up or down on the screen. The color of the Position knob indicates which waveform the knob is controlling. Push the knob to set the threshold level to 50% of the peak-to-peak amplitude range of the signal.

■

Scale sets the amplitude units per vertical graticule division of the selected waveform. The scale values are shown on the right edge of the horizontal graticule lines, and are specific to the selected waveform in both Stacked or Overlay modes (in other words, each waveform has its own unique vertical graticule settings regardless of display mode). The color of the Scale knob indicates which waveform the knob is controlling.

■

Channel buttons turn on (display), select, or turn off Channel, Math, Reference, or Bus waveforms. The number of channel buttons depends on the instrument model. The buttons operate as follows:

■

If the channel is not displayed, pushing a Channel button turns on that channel to the Waveform view.

■

If the channel is on the screen and is not selected, pushing that channel's button selects that channel.

■

If the channel is on the screen and is also selected, pushing that channel's button turns that channel off (removes it from Waveform view).

■

The Math button adds or selects a Math waveform on the Waveform view, as follows:

■

If no Math waveform exists, pushing the Math button adds a Math waveform to the Waveform view and opens the Math configuration menu.

■

If only one Math waveform is displayed, pushing the button turns off the Math waveform (removes it from Waveform view). Push the button again to display the waveform.

■

If two or more Math waveforms are displayed, pushing the button cycles through selecting each math waveform.

■

The Ref button adds or selects a Reference (saved) waveform on the Waveform view, as follows:

■

If no Reference waveform exists, pushing the Ref button opens the Browse Waveform Files configuration menu. Navigate to and select a waveform file (*.wfm) and tap Recall to load and display the reference waveform.

■

If only one Reference waveform is displayed, pushing the button turns off the Reference waveform (removes it from the Waveform View). Push the button again to display the waveform.

■

If two or more Reference waveforms are displayed, pushing the button cycles through selecting each Reference waveform.

■

The Bus button adds or selects a bus waveform on the Waveform view, as follows:

■

If no Bus waveform exists, pushing the Bus button adds a Bus waveform to the Waveform view and opens the Bus configuration menu.

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■

If only one Bus waveform is displayed, pushing the button turns off the Bus waveform (removes it from Waveform view).

■

If two or more Bus waveforms are displayed, pushing the button cycles through selecting each Bus waveform.

5. Horizontal controls:

■

Position moves the waveform and graticule side to side on the screen (changing the trigger point position in the waveform record). Push the knob to center the trigger event to the center graticule on the Waveform view.

■

Scale sets the time per major horizontal graticule division and samples/second parameters for the oscilloscope. Scale applies to all waveforms. Push the knob to enable the Fine mode for making smaller increment changes. Push the knob again to exit Fine mode.

■

Zoom opens the Zoom mode. Push Zoom again to exit zoom mode. See The Zoom user interface elements on page 30.

■

Zoom knob (center knob) increases or decreases the area of the zoom box in the Zoom Waveform Overview, which in turn controls the zoom amount of the waveforms shown in the main Zoom view.

■

Pan knob (outer knob) moves the Zoom box left or right in the Zoom Waveform Overview, which in turn controls the part of the waveform shown in the main Zoom view.

■

Navigate (left and right arrow) buttons puts the oscilloscope in Zoom mode and positions the previous or next search point in the waveform record to the center graticule of the Waveform view. There must be a Search badge present in the Results bar before the Navigate function will operate. Press and hold a front panel navigate button to continue moving to the next search point in that direction. See Badges on page 20.

The front panel Navigate buttons can also be used for the Previous and Next button functions on measurement badges.

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6. Miscellaneous controls:

■

Touch Off turns touch screen capability off. The Touch Off button is lighted when the touch screen is turned off.

■

Save is a one-push save operation that uses the current File > Save As settings to save screen shots (including open menus and dialog boxes), waveform files, instrument settings, and so on, as follows:

■

If a File > Save or File > Save As operation has occurred since the last instrument startup, pushing Save saves the file types to the location last set in the Save As configuration menu.

■

If no file save operation has occurred since the last instrument startup, pushing Save opens the Save As configuration menu. Select a tab to select the type of file to save (Screen Capture, Waveform, and so on), set any associated parameters, and where to save it, and select OK. The specified file or files are saved. The next time you push Save, the same type files are saved.

■

Screen Captures capture the entire screen, including most displayed configuration menus and dialog boxes.

■

Default Setup restores the oscilloscope settings (horizontal, vertical, scale, position, and so on) to the factory default settings.

■

Autoset automatically displays a stable waveform. See Quickly display a waveform (Autoset) on page 41.

7. Ground and Probe Compensation connectors:

■

The Ground and Probe Compensation connectors are located at the lower right side of the instrument, near the front panel. The Ground connector (the small hole in the case) provides an electrically grounded (through a resistor) connection point to attach an anti-static wrist strap, to reduce electrostatic damage (ESD) while you handle or probe the DUT.

■

The Probe Compensation connections provide a ground connector (upper tab) and 1 kHz square wave source (lower tab) for adjusting the high-frequency response of a passive probe (probe compensation). The oscilloscope uses this signal to automatically compensate supported probes, including the ones that ship with the product. See Compensate

the TPP Series probes on page 35.

8. USB Host ports (USB 3.0 and 2.0):

■

USB ports are located at the lower right corner of the front panel, and on the rear panel. Connect USB flash drives to which you can save or recall data (such as instrument software updates, waveforms, settings, and screen captures), or connect peripheral devices such as a mouse or keyboard.

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9. FlexChannel probe connectors:

Figure 4: 6 Series B MSO

■

FlexChannel connectors support all TekVPI+ and TekVPI measurement probes, BNC passive probes, the TPL058 FlexChannel Logic Probe, and BNC cables. You connect most probes simply by pushing them into the connector until the probe seats with a click. See Connecting probes to the instrument on page 4.

10. Aux In auxiliary trigger input connector (6 Series only):

A connector to which you can connect an external trigger input signal. Use the Aux In trigger signal with the Edge trigger mode.

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Rear panel connections

The rear panel connections supply power to the instrument and provide connectors for network, USB devices, video, reference signals, and the AFG output.

Figure 5: 6 Series B MSO

1. Power cord connector. Use only the power cord specified for this product and certified for the country of use.

2. Ref In lets you connect a high-precision 10 MHz reference signal to the oscilloscope for more accurate measurements.

3. AUX Out generates a signal transition on a trigger event, outputs a 10 MHz reference signal, or outputs a synchronization

signal from the AFG.

4. AFG Out is the signal output for the optional Arbitrary Function Generator (AFG) feature.

5. Video outputs (Display Port, VGA, and DVI-D) let you connect an external monitor or projector to show the instrument's

graphical user interface.

6. USB 3.0 Device port lets you connect to a PC to remotely control the instrument using USBTMC protocol.

7. USB Host ports let you connect a USB memory device, keyboard, or mouse.

8. LAN connector (RJ-45) connects the instrument to a 10/100/1000 Base-T local area network.

9. Security lock connector lets you use a standard PC/laptop lock cable to secure the instrument to a work bench or other

location.

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The user interface screen

The touch screen user interface contains waveforms and plots, measurement readouts, and touch-based controls to access all oscilloscope functions.

1. The Menu bar provides menus for typical operations including:

■

Saving, loading, and accessing files

■

Undoing or redoing an action

■

Setting oscilloscope display and measurement preferences

■

Configuring network access

■

Running self tests

■

Erasing measurement and settings memory (TekSecure™)

■

Loading option licenses

■

Opening a Help viewer

2. The Waveform View area displays analog, digital, math, reference, bus, and trend waveforms. The waveforms include waveform handles (identifiers), individual vertical graticule scale labels, and trigger position and level(s) indicators. You can set the Waveform View to stack each waveform vertically in separate graticules, called 'slices' (the default mode, as shown in the previous image), or overlay all the waveforms on the screen (traditional waveform view). See The user interface

elements on page 16.

You can also add Histogram, Spectral, Eye, and Measurement Results views (plots) for individual measurements. These plot views are separate view windows that you can move on the screen by dragging their title bar to a new position.

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3. The Results Bar contains controls for displaying cursors, adding callout, plots, and result tables to the screen, and add measurements to the Results bar. The controls are:

■

The Cursors button displays on-screen cursors in the selected view. Touch and drag, or use the Multipurpose knobs, to move the cursors. Double-tap on a cursor, or on the cursor readouts, to open a configuration menu to set cursor types and related functions.

■

The Measure button opens a configuration menu from which to select and add measurements to the Results bar. Each measurement you add has a separate badge. Double-tap a measurement badge to open its configuration menu.

■

The Results Table button adds a Measurement or Bus Results table to the screen. The Measurement Results table displays all measurements present in the Results bar. The Bus Results table displays bus decode information for displayed bus waveforms. Each table is contained within its own view window, which can be moved within the display area.

■

To remove a measurement, search or other badge from the Results Bar simply flick it off screen.

■

The Callout button adds a Callout object to the selected view. Double-tap the Callout text to open a configuration menu to change the type of callout, text and font characteristics. Drag any callout other than bookmark to any location on the oscilloscope screen view. Bookmarks callout can only be added to waveviews and spectrum views.

■

The Search button lets you detect and mark a waveform where specified events occur. Tap Search to open a Search configuration menu and set the search conditions for analog and digital channels. You can add any number of searches to the same waveform or to different waveforms. Search badges are added to the Results Bar.

■

The Plot button adds an XY, XYZ, or Eye Diagram plot to the display. These plots are contained within their own window and can be moved within the overall display area.

■

The Measurement and Search badges show measurement and search results, and are displayed in the Results Bar. See Badges on page 20. See Add a measurement on page 46. See Add a Search on page 51.

■

The Zoom icon button at the up right of the Results Bar lets you to draw a box on the screen to zoom in on an area of interest, drawing segments for mask testing, or drawing areas to define visual trigger conditions.

■

The More... button at the up right of the Results Bar allows you to select Zoom, Visual trigger or Mask.

4. The Settings Bar contains System badges for setting Horizontal, Trigger, Acquisition, and Date/Time parameters; Inactive Channel buttons to turn on channels; Add New Waveform buttons to add math, reference, and bus waveforms to the

display; and Channel and Waveform badges that let you configure the individual waveform parameters. Tap a channel or waveform button to add it to the screen and display a badge. Double-tap a badge to open its configuration menu. See

Badges on page 20.

5. To remove a measurement, search or other badge from the Results Bar simply flick it off screen.

6. Configuration Menus let you quickly change the parameters of the selected user interface item. You can open

configuration menus by double-tapping on badges, screen objects, or screen areas. See Configuration menus on page 28.

The user interface elements

Each area of the user interface has a specific function that helps manage information or controls. This topic shows and describes the key user interface elements.

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1. The Waveform Record View is a graphical high-level view of the overall waveform record length, how much of the record is on the screen (shown in brackets), the location of key time events including the trigger event, and the current position of waveforms cursors.

If you are displaying a Reference waveform that is shorter than the current acquisition record length, or you are changing the horizontal time scale while the oscilloscope acquisition is stopped, the brackets change position to show the part of the waveform record that is being viewed relative to the current acquisition total record length.

If cursors are active on a waveform, the Waveform Record View shows the relative cursor positions as small vertical dashed lines.

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When in Zoom mode, the Waveform Record View is replaced with the Zoom Overview. See The Zoom user interface

elements on page 30.

2. The Expansion Point icon on the waveform view shows the center point around which the waveform expands and compresses when changing horizontal settings.

3. The Trigger Position Indicator shows where the trigger event occurred in the waveform record. The trigger icon is displayed in the waveform slice that is the trigger source.

4. The Zoom icon (in upper right corner of Waveform and Plot views) toggles zoom on and off. The front panel Zoom button and knobs also turn on zoom mode and change the position and horizontal size of the Zoom Box.

5. The Trigger Level Indicator icon(s) shows the trigger level on the trigger source waveform. Some trigger types require two trigger levels.

6. Measurement and Search badges show measurement and search results. See Badges on page 20. See Add a

measurement on page 46.

7. The Results Bar Handle opens or closes the Results bar, to maximize waveform screen viewing when needed. To reopen the Results bar, either tap the handle icon or swipe left from the right side of the display.

8. The System badges show global instrument settings (Horizontal, Trigger, Acquisition, Run/Stop status, and Date/Time). See Badges on page 20.

9. The Inactive Channel buttons add channel waveforms to the Waveform view and add an associated Channel badge to the Settings bar.

The Add New Math, Add New Ref, and Add New Bus buttons add the corresponding signal to the Waveform view, and add an associated Waveform badge to the Settings bar. You can add any number of Math, Reference, and Bus waveforms, limited only by system memory.

The optional AFG button opens the AFG configuration menu to set and enable the AFG output. This button is only present if the AFG option is installed.

The optional DVM button lets you use an analog probe to take DC, AC RMS, or DC+AC RMS voltage measurements on your DUT. Tap the button to add a DVM badge to the Results Bar and open a configuration menu. The DVM option also enables a trigger frequency counter, accessible from the Mode & Holdoff panel in the Trigger badge menu. This button is only present if the DVM option is installed.

10. Double-tap a badge to open its associated configuration menu. See Badges on page 20. See Configuration menus on page 28.

If you add more Channel or Waveform badges than can fit in the waveform badge display area, tap the scroll buttons at each end of the waveform badge area to scroll and display hidden badges.

11. The Waveform Handles on each waveform identify the source of that waveform (Cx for channels, Mx for Math waveforms, Rx for Reference waveforms, Bx for bus waveforms). The waveform handles are at the zero-volt level of the waveform by default. The currently selected waveform handle is a solid color; unselected waveform handles are outlined.

Double-tapping a waveform handle opens the configuration menu for that waveform.

For digital channels, the waveform handle shows the channel number, each individual digital signal labeled D0–D7 and displayed with a different color.

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Double-tapping a digital waveform handle opens the digital channel configuration menu.

Dragging a digital signal handle over another handle swaps those two signals on the waveform.

12. The probe Dynamic Range Limit Markers are displayed just within the left-hand graticule edge, based at the channel vertical trace handle position and extending up and down to the dynamic range limits of the probe. The markers are only displayed if compatible probes are used. Signals must be within the probe dynamic range for the oscilloscope to correctly display and measure the signals.

The markers are displayed, for about three seconds, after any Offset, Position, or Scale control change that leaves the channel dynamic range limits within the acquisition window. After about three seconds the markers become short lines at the left edge of the graticule. If the dynamic range is too small to display the arrows, the arrows are omitted. Examples of all three marker versions are shown.

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Badges

Badges are rectangular icons that show waveform, measurement, and instrument settings or readouts. Badges also provide fast access to configuration menus. The badge types are Channel, Waveform, Measurement, Search, and System.

Channel and Waveform badges

Channel and Waveform (Math, Ref, Bus, Trend) badges are shown in the Settings Bar, located along the bottom left of the screen. Each waveform has its own badge. The badges show high-level settings for each displayed channel or waveform. Double-tap a badge to open its configuration menu.

Most Channel and Waveform badges also have Scale buttons, shown by single-tapping the badge. Use the Scale buttons to increase or decrease the vertical scale setting for that waveform.

You can drag Channel and Waveform badges to change their position in the Settings bar and open the badge right-click menu to access a quick-action menu.

There are two ways to delete Channel and Waveform badges.

■

Right-click the badge and turn it off.

■

Flick the badge off the bottom edge of the display to remove it from the Settings bar. Flicking upwards from the bottom edge of the Settings bar recovers the badge. Badge recovery is only possible within 10 seconds of removal.

Channel badges are listed in the channel order unless you have moved them. Channel badges may also display short error or warning messages. For more information double-tap the badge to open its configuration menu, or search the instrument Help.

Waveform badges (Math, Ref, Bus, Trend) are listed in the order created (unless they have been moved), and are grouped together by type. Deleting a Waveform badge does not change the order or names of the remaining badges.

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Measurement badges

Measurement badges are located in the Results Bar. They show measurements or search results. The badge title also shows the measurement source or sources. To add a Measurement badge, tap the Add New Measurement button and select a measurement.

Double-tap a Measurement badge to open its configuration menu to change or refine settings. The default measurement badge readout shows the measurement's mean (μ) value.

Some measurements and their badges are only available as options. For example, Power measurements are only listed in the Add New Measurement menu if the required power option is installed.

Wide Badge: Wide badge displays all the phases results in a separate column. All sub-measurements are listed in the results badge in the first column. The common result such as Frequency is applicable to all the (3) phases and displayed as single value. The configured sources for each phase are displayed in channel colors.

The Wide Badge applies to IMDA measurements only.

To add statistical readouts to individual measurement badges, double-tap a measurement badge to open its configuration menu and select Show Statistics in Badge.

Some Measurement badges also have Navigation buttons, shown by single-tapping the badge.

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The < (Previous) and > (Next) buttons center the waveform in the display at the position of the previous or next measurement point in the record (for measurements that take more than one measurement per acquisition).

The Min' and Max' navigation buttons center the waveform in the display at the minimum or maximum value for that measurement in the current acquisition.

The prime symbol (') shown on measurement readings and Min/Max buttons indicates that the value shown (or moved to in the case of Min/Max buttons and waveforms) is from the current acquisition. Lack of a prime symbol means the value is from all acquisitions.

The Measurement badge displays Status and Failures information when pass/fail testing is enabled through the configuration menu. The Status line shows Pass (green) or Fail (red) according to the conditions defined in the Pass/Fail Testing panel. The number of Failures are displayed when statistics are shown in the badge. The Pass/Fail status, number of Failures, and the Limit(s) set in the Pass/Fail Testing panel are available in the Measurement Results table.

Measurement badges are listed in the order created, starting at the top of the Results bar. Deleting a Measurement badge does not change the order or names of the remaining badges.

You can drag Measurement badges to change their position in the Results bar and open the badge right-click menu to access a quick-action menu.

There are two ways to delete Channel and Waveform badges.

■

Right-click the badge and turn it off.

■

Flick the badge off the right edge of the display to remove it from the Results bar. Flicking left from the right edge of the Results bar recovers the badge. Badge recovery is only possible within 10 seconds of removal.

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Mask Test Badge

The mask test results and measurement statistics are displayed in the Mask Test badge in the Results bar. The badge is created when the first segment of a mask is defined.

Badge readout Description

Label A label defined in the badge configuration menu.

Wfms The total number of waveforms tested against the mask.

Failed The number of waveforms that contained one or more samples

that violated the mask.

Hits (optional readout) A row is created for each segment that makes up the mask.

The number displayed is the number of times that segment has been hit.

Total The total number of hits on all segments.

Status The status of the mask test. Either Pass (green) or Fail (red) is

displayed.

Double-tap a Mask Test badge to open its configuration menu to change or refine settings.

You can drag the badge to change its position in the Results bar and open the badge right-click menu to access a quick-action menu.

There are two ways to delete Channel and Waveform badges.

■

Right-click the badge and turn it off.

■

Flick the badge off the right edge of the display to remove it from the Results bar. Flicking left from the right edge of the

Results bar recovers the badge. Badge recovery is only possible within 10 seconds of removal.

Cursor Badges

You can display the cursor readouts in a Cursors badge in the Results bar. The badge contents depend on the cursor in use.

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To create a cursor readouts badge, turn on Cursors, double-tap a cursor readout to open its configuration menu, and set the Readouts mode to Badge.

NOTE. You can only view cursor readouts in one location at a time; either on the waveform or in a Cursors badge.

NOTE. You cannot move cursor readouts to a badge for Spectrum View cursors.

You can drag the badge to change its position in the Results bar and open the badge right-click menu to access a quick-action menu.

There are two ways to delete Channel and Waveform badges.

■

Right-click the badge and turn it off.

■

Flick the badge off the right edge of the display to remove it from the Results bar. Flicking left from the right edge of the

Results bar recovers the badge. Badge recovery is only possible within 10 seconds of removal.

Search badges

Search badges are also shown in the Results Bar, below the Measurement badges. A search badge lists the search source,

search type, and the number of search event occurrences in the current acquisition. The instrument marks the waveform where those events occur with small down-pointing triangles along the top of the waveform graticule. Double-tap a search badge to open its configuration menu to change or refine search settings.

Search badges are created by tapping the Add New... Search button. Use the displayed configuration menu to set the search criteria.

Search badges have < (Previous) and > (Next) Navigation buttons that open the Zoom mode and center the waveform in the display at the position of the previous or next search mark in the waveform record. Search badge Navigation buttons are only usable when the oscilloscope is in single acquisition mode. Single-tap a badge to close the Navigation buttons.

Some searches also provide Min and Max navigation buttons that open the Zoom mode and center the waveform in the display at the minimum or maximum value for that search event in the current acquisition.

Search badges are listed in the order created. Deleting a Search badge does not change the order or names of the remaining badges.

You can drag Search badges to change their position in the Results bar and open the badge right-click menu to access a quickaction menu.

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There are two ways to delete Channel and Waveform badges.

■

Right-click the badge and turn it off.

■

Flick the badge off the right edge of the display to remove it from the Results bar. Flicking left from the right edge of the

Results bar recovers the badge. Badge recovery is only possible within 10 seconds of removal.

Signal Clipping and Badges

WARNING. Clipping is caused by excessive or dangerous voltage at the probe tip, and/or a vertical scale setting that is not adequate to display the entire vertical range of the waveform. Excessive voltage at the probe tip can injure the operator and cause damage to the probe and/or instrument.

This instrument shows a warning triangle symbol and the words Clipping in a Channel badge when a vertical clipping condition exists. Any measurement badges associated with that channel also indicate a clipping condition by turning the measurement text red and listing the type of clipping (positive or negative).

To close the clipping message, change the vertical scale to show the entire waveform, disconnect the probe tip from the excessive voltage source, and check that you are probing the correct signal using the correct probe.

Clipping causes inaccurate amplitude-related measurement results. Clipping also causes inaccurate amplitude values in saved waveform files. If a math waveform is clipped, it will not affect amplitude measurements on that math waveform.

Error Messages and Badges

This instrument shows a warning triangle symbol and an error message abbreviation in a Channel badge when an error occurs.

To remove the message from the badge, clear the error as indicated in the table.

Table 1: Probe errors

Error message Description

Prb Comm Accessory communication timed out. Please re-attach the accessory.

Prb ROM Unable to read probe ROM. Please re-attach the accessory.

Unsup Accessory is unsupported.

Prb Fault Critical accessory fault. Please re-attach the accessory. If the problem persists, contact Tektronix service.

Over Rng The signal voltage or current is over range. Please reduce the signal amplitude.

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Error message Description

Temp The probe has experienced an over temperature condition. Please remove the probe from the high

temperature area.

No Tip No probe tip detected. Please install a compatible probe tip.

Tip Fault The probe tip has a fault. Please remove and replace the probe tip.

S-param Error during S-parameter transfer. Please reattach the probe. If the problem persists, contact Tektronix

Service.

System badges

System badges (in the Settings bar) display the main Horizontal, Trigger, and Acquisition settings. You cannot delete System badges.

Double-tap a System badge to open its configuration menu.

The Horizontal badge also has Scale buttons, shown by single-tapping the badge. Use the Horizontal Scale buttons to increase or decrease the horizontal time setting.

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Common badge actions

Action Result Example

Single tap Immediate access controls (Scale,

Navigation).

Double tap Configuration menu with access to

all settings for the badge.

Touch and hold Right-click menu with single tap

access to common actions. Typical actions include turning off a channel and deleting a measurement or search badge.

Flick Flick the badge off the bottom edge of the display to remove it from the Settings bar.

Flick the badge off the right edge of the display to remove it from the Results bar. Flick from the right or bottom edge to recover a removed badge. This action is only possible within 10 seconds of badge removal.

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Badge selection status

The appearance of a badge indicates its selection status (selected or unselected), or if a measurement needs to be deleted to close a channel or waveform badge.

Badge type Selected Unselected Turned off or in use

Channel or Waveform

Measurement N/A

Configuration menus

Configuration menus let you quickly set the parameters for channels, system settings (Horizontal, Trigger, Acquisition), measurements, cursor readouts, Waveform and Plot views, callout text, and so on.

Double-tap an item (badge, Waveform View or Plot View, cursor readouts, callout text, and so on) to open its configuration menu. For example, double-tap a Channel badge in the Settings Bar to open its configuration menu.

A dimmed Channel badge means the screen waveform is turned off (but not deleted). A dimmed Waveform badge means that the waveform display is turned off, or it is being used as a source by a measurement and cannot be deleted until the measurement is deleted.

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Getting acquainted with your instrument

Selections or values that you enter take effect immediately. Menu contents are dynamic, and can change depending on your selections, instrument options, or attached probes.

Related settings are grouped into 'panels.' Tap the panel name to show those settings. Changes to panel settings can change the values and/or fields shown in that panel and other panels.

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Getting acquainted with your instrument

Tap anywhere outside a configuration menu to close it.

To open Help content for a configuration menu, tap the question mark icon in the upper right corner of the menu.

The Zoom user interface elements

Use the zoom tools to magnify waveforms to view signal details.

1. The Zoom Overview shows the entire waveform record. All waveforms are shown in Overlay mode in the Zoom Overview area.

NOTE. Using pinch and expand gestures on the Zoom Overview waveforms changes the horizontal time base settings.

2. The Zoom Box shows the area of the Zoom Overview to display in the Zoom View (see 5). You can touch and drag the box to move the area to view. You can also use the zoom Pan knob to move the Zoom Box left or right.

NOTE. Moving the Zoom Box, or changing its position, does not change the horizontal time base settings.

3. The Zoom icon (in the upper right corner of the Waveform View) switches zoom mode on and off.

4. The Draw-a-Box button toggles between drawing a zoom box (default mode), drawing areas for the Visual Trigger

function, and drawing segments for Mask Testing. The button is located at the bottom of the Results Bar.

A zoom box lets you quickly draw a box around an area of interest in the Waveform or Zoom Overview. Drawing a box immediately puts the oscilloscope into zoom mode. To draw a zoom box, tap the Draw-a-Box button (while in Zoom mode), then touch and drag on the waveform to draw a box waveform. You can continue to draw zoom boxes until you single tap anywhere on the screen or open a menu.

To toggle between Zoom mode, Visual Trigger mode, and Mask mode, double-tap the Draw-a-Box button and select one of the three options. Search for the Visual Trigger and Mask Testing topics in the oscilloscope embedded Help for more information.

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5. The Zoom View shows the zoomed waveforms, as marked by the Zoom Box, in the Zoom Waveform Record View. Use pinch and/or drag options in the zoom view to change the zoomed area of interest.

NOTE. Pinch, expand, and drag gestures in the Zoom View only change zoom magnification settings and Zoom Box position.

6. Use the Zoom Title Bar controls to adjust the vertical and horizontal size of the zoom area. Click or tap the + or - buttons.

Using the touch screen interface for common tasks

Use standard touch screen actions, similar to those found on smart phones and tablets, to interact with most screen objects. You can also use a mouse to interact with the UI. The equivalent mouse operation is shown for each touch operation.

The oscilloscope has a user interface tutorial. Tap Help > User Interface Tutorial to quickly learn the fundamental touch operations.

Table 2: Common touchscreen UI tasks (with mouse equivalents)

Task Touchscreen UI action Mouse action

Add a channel, math, reference, or bus waveform to the screen.

Select a channel, math, reference, or bus waveform to make it active

Display scale or navigation buttons on a badge (waveform, measurement

search, horizontal).

Open a configuration menu on any item (all badges, views, cursor readouts, labels, and so on).

Open a right-click menu (badges, views). Touch and hold on the badge, Waveform

Close a configuration menu

. Tap anywhere outside the menu or

Tap an inactive channel button, Add New

Math, Add New Reference, or Add New Bus button.

Stacked or Overlay mode: Tap the Channel or Waveform badge. Stacked mode: Tap the channel, math, reference, or bus waveform slice or handle. Overlay mode: Tap the channel or waveform handle.

Click an inactive channel button, Add

New Math, Add New Reference, or Add New Bus button.

Stacked or Overlay mode: Left-click the Channel or Waveform badge. Stacked mode: Left-click the channel, math, reference, or bus waveform slice or handle. Overlay mode: Left-click the channel or waveform handle.

Tap the badge. Click the badge.

Double-tap the badge, view, or other object.

Double-click the badge, view, or other object.

Right-click the object. View, Plot view, or other screen item until a menu opens.

Click anywhere outside the menu or dialog.

dialog.

Not all measurement or search badges display navigation buttons.

Some dialog boxes will not close until you click an OK, Close, or other button in the dialog.

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Task Touchscreen UI action Mouse action

Move a menu. Touch and hold the menu title bar or a

blank area in the menu, then drag the

Click and hold the right mouse button on title or blank area, drag to new position.

menu to new position.

Move a callout

. Touch and hold on a callout and quickly

start to drag, then move to new position.

Click and hold the right mouse button on the callout and quickly start to drag, then move to the new position.

Change horizontal or vertical settings directly on a waveform. Vertical changes only apply to the selected channel or waveform; horizontal changes apply to all channels and

Tap a badge and use the Scale buttons. Touch and hold two fingertips on the waveform view, move them together or apart vertically or horizontally, lift from screen; repeat.

Left-click a channel, waveform, or Horizontal badge and click on the Scale buttons.

waveforms.

Increase or decrease the zoom area (while in Zoom mode)

Touch and hold two fingertips on the waveform view, move them together or apart vertically or horizontally, lift from screen; repeat.

Click the + or - buttons on the Zoom Title bar. Click the Draw-a-Box button, draw a box around the waveform area of interest.

Quickly scroll or pan a waveform or list. Touch and drag in the waveform or list. Click and drag in the waveform or list.

Close or open the Results Bar to increase the Waveform View area.

Tap on the Results Bar Handle (three vertical dots in border) or anywhere in the border between the Waveform View and the Results Bar.

Click the Results Bar Handle (three vertical dots in border) or anywhere in the border between the Waveform View and the Results Bar. Click and drag the Results Bar divider.

Change the position of badges in the Settings Bar or Results Bar.

Touch and drag the badge to a new position in the same bar.

Click and drag the badge to a new position in the same bar.

Callouts are screen objects and are not associated with any particular waveform channel or slice.

Start to move the callout as soon as selected (highlighted), otherwise the UI opens the right-click menu.

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Configure the instrument

Set the time zone and clock readout format

Set the time zone to your region so that saved files are marked with the correct date and time information. You can also set the time format (12 or 24 hour clock).

1. Double-tap the Date/Time badge (bottom-right of screen) to open the configuration menu.

2. To turn off showing the date and time on the screen, tap the Display button to Off.

To turn on date/time display again, double-tap in the blank area where the date/time badge was displayed to open the configuration menu, and set the Display button to On.

3. Select a time format (12 Hour or 24 Hour).

4. Tap the Time Zone field and select the time zone that applies to your location.

5. Tap anywhere outside of the menu to close it.

Download and install the latest instrument firmware

Installing the latest firmware helps ensure that your instrument has the lastest features and is taking the most accurate measurements.

Prerequisite: Save any important on-instrument files (waveforms, screen captures, setups, and so on) to a USB drive or network. The installation process does not remove user-created files, but it is a good idea to back up important files before an update.

Prerequisite: Determine the current version of firmware installed on the instrument (see Help > About).

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Update instrument firmware from a USB drive

1. To download the instrument firmware and install onto a USB drive:

a. Open up a Web browser on a PC and go to www.tek.com/product-support.

b. Enter the instrument model number in the search field and click Go.

c. Scroll down the screen and click the Software tab.

d. If the listed available firmware version (Windows or non-Windows) is newer than what is on your instrument, select and

download that file to your PC.

e. Follow the installation instructions that are on the web site or that came with the downloaded firmware to create the

firmware install file.

f. Copy the firmware install file to a USB flash drive.

2. To install firmware on standard instruments:

a. Power on the instrument and wait for the instrument to fully boot up.

b. Insert the USB flash drive into any instrument USB Host port.

c. The instrument detects the update firmware and opens a dialog box. Follow the on-screen instructions to install the

firmware.

NOTE. Do not power off the instrument or remove the USB flash drive until the instrument finishes installing the firmware. The instrument displays a message when it is OK to power off. Remove the USB drive before powering on the instrument.

3. To install firmware on instruments with the Windows option:

a. Close the TekScope program before updating the firmware.

b. Insert the USB drive into any instrument USB Host port.

c. Open the Windows desktop File Explorer and navigate to and select the install file.

d. Run the firmware update file from the USB drive, or copy the firmware update file to the desktop and run the file from

there.

e. Follow any on-screen instructions to install the firmware.

f. When the firmware install is finished, remove the USB drive and restart the instrument.

NOTE. Do not power off the instrument, or remove the USB flash drive if installing from the drive, until the instrument finishes installing the firmware. The instrument displays a message when it is OK to power off.

4. To confirm that the firmware was updated:

a. Tap Help > About in the Menu bar.

b. Check that the firmware version number listed on the screen is the same version that you downloaded.

Run Signal Path Compensation (SPC)

Run SPC when you first receive an instrument, and at regular intervals, for best measurement accuracy. You should run SPC whenever the ambient (room) temperature has changed by more than 5 °C (9 °F), or once a week if you use vertical scale settings of 5 mV per division or less.

Signal Path Compensation (SPC) corrects for DC level inaccuracies in the internal signal path, caused by temperature variations and/or long-term signal path drift. Failure to run SPC on a regular basis may result in the instrument not meeting warranted performance levels at low volts per division settings.

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Configure the instrument

Prerequisite: Disconnect all probes and cables from the front-panel channel inputs and rear-panel signal connectors.

1. Power on and warm up the instrument for at least 20 minutes.

2. Tap Utility > Calibration.

3. Tap Run SPC. The SPC Status readout shows Running while SPC is running. SPC can take several minutes per channel

to run, so wait until the SPC Status message changes to Pass before reconnecting probes and using the instrument.

CAUTION. You can abort the SPC calibration by tapping Abort SPC. This may leave some channels uncompensated, resulting in possible inaccurate measurements. If you do abort the SPC, make sure to run the SPC procedure completely before using the instrument to take measurements.

4. Close the Calibration configuration dialog when SPC has completed.

5. If the SPC fails, write down any error message text. Make sure that all probes and cables are disconnected and run the SPC

again. If the SPC still fails, contact Tektronix Customer Support.

Compensate the TPP Series probes

Probe compensation adjusts the high frequency response of a probe for best waveform capture and measurement accuracy. The oscilloscope can automatically test and store compensation values for an unlimited number of probe/channel combinations.

NOTE. Probe compensation does not apply to the LDP64 instrument.

The oscilloscope stores the compensation values for each probe/channel combination, and automatically recalls the compensation values when you plug in the probe. Probe compensation status is shown in the Probe Setup panel of the Channel configuration menu.

■

If the Probe Compensation Status field displays Pass, the probe is compensated and ready for use.

■

If the Probe Compensation Status field displays Default, the attached probe has not been compensated and needs to have this probe compensation procedure run.

■

If the Probe Compensation Status field displays Fail, the attached probe has failed the probe compensation procedure. Reconnect the probe and run probe compensation again.

■

If there is no probe compensation status field shown in the panel, the oscilloscope cannot store compensation values for that probe. See the oscilloscope Help for how to manually compensate passive probes not supported by the probe compensation function.

Use this procedure to compensate supported TPP-family probes that show a Default status when connected to the oscilloscope.

NOTE. Doing a Default Setup does not delete probe compensation values. A factory calibration does delete all stored probe compensation values.

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Prerequisite: The oscilloscope must be powered on for at least 20 minutes before compensating a probe.

1. Connect a supported probe to an input channel.

2. Connect the probe tip and ground lead of the probe to the PROBE COMP terminals on the lower right of the oscilloscope

(see following image).

Connect the probe tip to the 1 kHz source, and the ground clip to the ground. For best results, remove any probe tip accessories and hold the probe tip directly onto the 1 kHz connector.

NOTE. Connect only one probe at a time to the PROBE COMP terminals.

3. Turn off all channels.

4. Turn on the channel to which the probe is connected.

5. Push the front-panel Autoset button. The screen displays a square wave.

6. Double-tap the badge of the channel that you want to compensate.

7. Tap the Probe Setup panel.

If the Probe Compensation Status says Pass, the probe is already compensated for this channel. You can move the probe to another channel and start again from step 1, or connect a different probe to this channel and start from step 1.

If the Probe Compensation Status says Default, continue with this procedure.

8. Tap Compensate Probe to open the Probe Compensation dialog.

9. Tap Compensate Probe to run the probe compensation.

10. The probe compensation is finished when the Probe Compensation Status displays Pass. Disconnect the probe tip and

ground from the PROBE COMP terminals.

11. Repeat these steps for each supported passive probe that you want to compensate for this channel.

12. Repeat these steps to compensate supported probes on other channels of the oscilloscope.

NOTE. For most accurate measurements, open the Probe Setup panel and verify the Probe Compensation Status is Pass whenever you attach a probe to a channel.

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Configure the instrument

Connect to a network (LAN)

Connecting to a network allows you to remotely access the instrument.

Work with your network administrator to obtain the required information to connect to your network (IP address, Gateway IP address, Subnet Mask, DNS IP address, and so on).

1. Connect a CAT5 cable from the instrument LAN connector to your network.

2. Select Utility > I/O on the menu bar to open the I/O configuration menu.

3. Obtain or enter the network address information:

■

If your network is DHCP-enabled, and the IP address field does not already show and address, tap Auto to obtain the IP address information from the network. DHCP mode is the default mode.

■

If your network is not DHCP-enabled, or you need a permanent (non-changing) IP address for this instrument, tap

Manual and enter the IP address and other values provided by your IT or system administrator resource.

4. Tap Test Connection to verify that the network connection is working. The LAN Status icon turns green when the

instrument successfully connects to your network. If you have problems connecting to your network, contact your system administration resource for help.

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Operating basics

These procedures are an introduction to using the interface to do common tasks. See the Help information in the application for detailed information on menu and field settings.

Add a channel waveform to the display

Use this procedure to add a channel signal to the Waveform View.

1. Connect signal(s) to the channel input(s).

2. Tap an Inactive Channel button (in the Settings bar) of a connected channel.

The selected channel is added to the Waveform View and a Channel badge is added to the Settings bar.

3. Continue tapping Inactive Channel buttons to add more channels (digital or analog). Channels are displayed from lowestnumbered channel at the top, to highest-numbered channel at the bottom of the view, regardless of the order they were added (in stacked mode).

4. Double-tap a channel badge to open that channel's configuration menu to check or change settings. See Configure channel

or waveform settings on page 40.

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Configure channel or waveform settings

Use the channel and waveform configuration menus to set parameters such as vertical scale and offset, coupling, bandwidth, probe settings, deskew values, external attenuation values, and other settings.

Prerequisite: There is a channel or waveform badge in the Settings bar.

1. Double-tap a Channel or Waveform badge to open a configuration menu for that item.

For example, in a Channel menu, use the Vertical Settings panel to set basic probe parameters such as vertical scale and position, offset, coupling, termination, and bandwidth limit.

Available settings depend on the probe.

2. Tap the Probe Setup panel to confirm probe settings and run configuration or compensation on supported probes.

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3. Tap the Other panel to set probe deskew, external attenuation, and alternate units parameters.

4. Tap the Help icon on the menu title to open the help topic for more information.

5. Tap outside the menu to close the menu.

Quickly display a waveform (Autoset)

The Autoset function analyzes the signal characteristics and changes the instrument Horizontal, Vertical, and Trigger settings to automatically display a triggered waveform. You can then make further changes to trigger and horizontal settings to view the waveform point of interest.

1. Connect the probe with the signal of interest to an available channel. The signal can be analog or digital.

2. Double-tap the Trigger badge and set the trigger source to that of the signal of interest.

3. Connect any other associated signal(s) to available channel input(s).

4. Add the channel waveforms to the Waveform view. See Add a channel waveform to the display on page 39.

5. Tap File > Autoset or push the front-panel Autoset button. When using the Stacked Display mode, the instrument analyzes

the signal characteristics of the trigger source channel (analog or digital) and adjusts the horizontal, vertical, and trigger settings accordingly to display a triggered waveform for that channel. The Vertical scale is adjusted in each waveform slice of all active waveforms to maximize ADC utilization.

When using the Overlay Display mode, the instrument adjusts the horizontal and trigger settings of the trigger source channel to display a triggered waveform for that channel. Vertical scale and position adjustments for all active channels in Overlay Display mode are controlled by the Autoset in Overlay Display Mode Optimizes selection in the Autoset panel of the User Preferences menu. If the selection is Visibility, Autoset vertically scales and positions all active channel waveforms such that they are uniformly spaced on screen. If the selection is Resolution, Autoset vertically scales and positions all active channel waveforms such that they each use as much of the ADC's range as possible.

NOTE. You can set which parameters the instrument can adjust when running an Autoset.

Autoset guidelines:

■

Autoset displays three or four cycles (depending on the detected signal) with the trigger level near the midlevel of the signal.

■

The trigger is set to type Edge, rising slope, DC coupling.

■

If no channels are displayed before pushing Autoset, the oscilloscope adds Ch 1 to the Waveform view whether it has a signal or not.

■

Autoset ignores math, reference, and bus waveforms.

■

A channel or waveform with a frequency less than 40 Hz is classified as no signal.

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How to trigger on a signal

Use this procedure to open the Trigger menu to select and configure the trigger event type and conditions.

1. Double-tap the Trigger badge on the Settings bar to open the Trigger configuration menu.

2. Select a trigger from the Trigger Type list. The trigger type sets what fields are available in the menu and also updates the

illustration to show a graphic of the trigger type.

NOTE. To trigger on a bus, you must first add the bus to the Waveform view. See Add a math, reference, or bus waveform on page 45

NOTE. Triggering on buses other than Parallel requires purchasing and installing serial trigger and analysis options.

3. Select the other fields and panels to refine the trigger conditions. The menu fields and trigger graphic update as you make changes to the trigger settings. Displayed fields depend on the selected trigger type. Selection changes take effect immediately.

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Operating basics

4. Tap the Help icon on the menu title for more information on these settings.

5. Tap outside the menu to close the menu.

Set the acquisition mode

Use this procedure to set the method the instrument uses to acquire and display the signal.

1. Double-tap the Acquisition badge on the Settings bar to open the Acquisition configuration menu.

2. Select the acquisition method from the Acquisition Mode list. Set any other parameters associated with the selected

acquisition type.

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3. Tap the Help icon on the menu title for more information on these settings.

4. Tap outside the menu to close the menu.

Set Horizontal parameters

Use this procedure to set the horizontal time base parameters such as mode, minimum sample rate, horizontal scale, delay, and trigger delay time (relative to the center of the waveform record.

1. Double-tap the Horizontal badge on the Settings bar to open the Horizontal configuration menu.

2. Use the menu selections to set horizontal parameters.

3. Tap the Help icon on the menu title for more information on these settings.

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Add a math, reference, or bus waveform

Math waveforms let you create new waveforms based on operations between two or more waveforms or by applying equations to waveform data. A reference waveform is a static waveform record displayed for comparison. Bus waveforms let you view and analyze serial or parallel data.

There is no set limit to the number of Math, Reference, or Bus waveforms you can add to the Waveform View, other than system physical memory constraints.

1. Tap the Add New Math, Add New Ref, or Add New Bus button in the Settings bar.

2. The instrument adds the waveform to the Waveform view, adds a Waveform badge to the Settings bar, and opens a

configuration menu. This example shows adding a Math waveform.

Figure 6:

3. Use the configuration menus to refine the waveform parameters. Displayed fields depend on the waveform and selections

made in the menu. Selection changes take effect immediately.

This example shows adding a Math waveform, using the Math Source fields to select Ch 1 and Ch 2 as the waveform sources, set the math type to Basic math operation, and subtracting channel 2 from channel 1.

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Operating basics

4. When adding a Reference waveform, the instrument displays a Recall configuration menu. Navigate to and select the reference waveform file (*.wfm) to recall, then tap the Recall button. The instrument displays the Reference waveform.

5. Double-tap a math, reference, or bus badge to check or change that waveform's settings. See Configure channel or

waveform settings on page 40.

6. Tap the Help icon on a configuration menu title for more information on math, reference, and bus waveform settings.

7. Tap outside the menu to close the menu.

Add a measurement

Use this procedure to select and add measurements.

1. Acquire the channel(s) and/or waveform(s) on which you want to take measurements.

Figure 7:

NOTE. Waveforms do not need to be displayed to be used for measurements, as long as the channel or waveform badge is on the Settings bar and is acquiring the signal to measure.

2. Tap the Add New...Measure button to open the Add Measurements configuration menu or drag the Measure button onto a waveform in the waveform display area to automatically set the source.

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NOTE. If the menu shows tabs other than Standard, then optional measurement types have been installed on the instrument. Select a tab to show the measurements for that option.

3. Tap the Source field and select the measurement source. The list shows all available sources that are valid for the measurement.

4. Select a measurement category panel, such as Amplitude Measurements or Timing Measurements, to display measurements for those categories.

5. Some optional measurement packages are available in this menu as well like PWR, DJA, DBDDR3, DPM, IMDA.

6. Select a measurement and tap Add to add the measurement to the Results bar. You can also double-tap a measurement to add it to the Results bar.

7. Select and add other measurements for the current source. Tap the measurement category panels to display and select

other measurements to add.

8. To add measurements for other sources, select a different source, select a measurement, and add the measurement.

9. Tap outside the Add Measurements menu to close the menu.

10. To further adjust a measurement's settings, double-tap a measurement badge to open a configuration menu for that

measurement. See Configure a measurement on page 48.

11. Tap the Help icon on the menu title for more information on settings.

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Configure a measurement

Use this procedure to add statistical readouts to the measurement badge, display plots for the measurement, and refine measurement parameters (configuration, global versus local scope of settings, gating, filtering, and so on).

1. Double-tap a measurement badge to open its Measurement configuration menu.

2. Tap Show Statistics in Badge to add statistical readouts to the measurement badge.

3. Tap available panel titles to make changes for those categories.

4. Use the available fields to refine the measurement conditions. Displayed fields depend on the measurement. Selection

changes take effect immediately. Selection changes can also change fields in other panels.

5. Tap the Help button on the menu title for more information on this menu's settings.

6. Tap outside the menu to close the menu.

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Add a plot of a measurement

Measurement plots let you graph the distribution of waveform data point occurrences (histogram), plot the frequency components (spectrum) of a waveform, show the time trend of a measurement, display an eye diagram, and other supported plots. Available plots depend on the measurement.

1. Double-tap a Measurement badge to open the Meas configuration menu.

2. Tap a Plots button to add that plot for the measurement to the screen.

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The following shows adding a Histogram plot.

Figure 8:

You can add more than one plot to measurements (to different measurements or the same measurement). For example, you can add two histogram plots for the same measurement, set one to display the X-Axis with a Logarithmic scale, and the other plot to display the X-Axis with a Linear scale.

3. You can move plot windows by dragging the Plot view title bar to a new position. The blue background area moves to show where the plot will be located when you remove your finger from the title bar. You can also resize plot windows by selecting and dragging the Plot view border. You should use a mouse to do these operations, as it is easier to select and drag plots with a mouse.

4. Double-tap within a Plot view to open a configuration menu to set display characteristics. Tap the Help icon on the configuration menu title for more information on that menu's settings. Tap outside the menu to close the menu.

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Add a Search

Use this procedure to set search criteria and mark a waveform where those events occur.

You can search on analog and digital signals, math waveforms, and reference waveforms. You can add searches to different waveforms and multiple searches to the same waveform. Prerequisite: Display the channel or waveform signal on which to search. The waveform must be displayed to create a search for it.

1. Display the channel or waveform signal on which to search. The waveform must be displayed to create a search for it.

2. Tap the Add New...Search button to open the Search configuration menu.

3. Use the configuration menu fields to set the search criteria in the same way that you would set for a trigger condition (select the Search Type, Source, and conditions on which to search).

NOTE. You cannot search for sequential events (there is no Sequence search type).

4. The searched waveform is marked with one or more triangles as soon as the search criteria becomes true. Each search uses a different color for its markers. The example image shows search criteria set to find positive pulse widths that are less than 70 ns wide.

5. To stop showing marks on a waveform, double-tap the Search badge and tap Display to Off.

6. To move the waveform to center marks on the display, push the Run/Stop front panel button to stop acquisition, single-tap

a Search badge, and tap the < or > Navigation button.

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NOTE. Navigation buttons are only functional when the oscilloscope acquisition mode is set to Stop.

This opens the Zoom mode and moves the waveform to the previous or next event mark on the waveform.

7. If available for a search, tap the Min or Max button to center the waveform in the display at the minimum or maximum value

of the search events in the waveform record.

8. To return the instrument to normal acquisition mode, tap the Zoom icon in the upper right corner of the Waveform View to turn off Zoom mode, and push the Run/Stop front-panel button to set it to Run mode.

Delete a Measurement or Search badge

Use this procedure to remove a Measurement or Search badge from the Results bar.

1. Touch and hold the Measurement or Search badge that you want to delete. The instrument opens a right-click menu.

2. Select Delete Meas to delete that badge from the Results bar.

NOTE. You can undo a measurement delete.

3. The third way to delete a Measurement or Search badge is by flicking it off the right edge of the display. Flicking to the left from the right edge of the display recovers the badge.

NOTE. Badge recovery is only possible within 10 seconds of removal.

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Change waveform view settings

Use this procedure to change the waveform display mode (Stacked or Overlay), waveform trace interpolation algorithm, waveform persistence, style and intensity, and graticule style and intensity.

1. Double-tap on an open graticule area to open the Waveform View configuration menu.

2. Tap the buttons in the Display Mode to toggle between Overlay and Stacked modes.

3. Use the other controls to set the waveform interpolation algorithm, waveform point persistence, style, and intensity, and

graticule style and intensity.

4. Tap the Help icon on the menu title to open the Waveform View menu help topic for more information on the waveform view parameters.

5. Tap outside the menu to close the menu.

Display and configure cursors

Cursors are on-screen lines that you can move to take measurements on specific parts of a waveform or plot, or between two different waveforms. Cursor readouts show both current position values and the difference (delta) between cursors. Polar cursor readouts are available through the cursor configuration menu for XY and XYZ plots.

1. Tap the waveform slice (in Stacked mode), or the channel or waveform badge (in Overlay mode) to which you want to add cursors.

2. Tap the Add New...Cursors button, or push the front-panel Cursors button.

The cursors are added to the display.

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3. Use Multipurpose Knobs A and B to move the cursors, or touch and drag a cursor. Cursors show readouts that show position and difference measurements between the cursors.

4. To move the cursors to a different channel or waveform, just tap in that waveform graticule.

5. To further configure cursors, double-tap on either cursor line or the cursor readouts to open the Cursors configuration

menu. For example, tap the Cursor type to select the cursors to display, such as Waveform, V Bars, H Bars, and V&H Bars.

The cursor configuration menu in the waveform view.

The cursor configuration menu in an XY plot.

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6. To split the cursors between two waveforms, tap the Source field and select Split and select the source for each cursor.

The cursors are moved to the specified waveforms.

7. Tap the Help icon on the menu title for more information on the menu settings.

8. To stop showing cursors, push the front panel Cursor button, press and hold to open the right-click menu and turn cursors

off, or open the Cursors configuration menu and set Display to Off.

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Operating basics

e*Scope® remote access from a Web browser (standard instrument)

You can remotely access your network-connected standard instrument (not running Windows) from a Web browser to display the instrument user interface on a PC.

This procedure describes how to remotely access the UI controls and screen for standard (non Windows 10) instruments using e*Scope functionality. To remotely access the UI controls and screen for Windows 10 instruments, see the Remote access to a Windows 10 instrument topic in the Help.

Prerequisites:

■

The instrument must be connected to, and accessible from, the network to which the PC is connected. See Connect to a

network (LAN) on page 37

■

The IP address of the instrument that you want to access. To determine the instrument's IP address, select Utility > IO in the instrument menu bar and view the network settings in the LAN panel.

■

You are accessing a standard (instrument that does not have the Windows OS option installed).

1. Open a Web browser on a PC connected to the same network as the instrument.

2. Enter just the instrument IP address on the URL line of the browser and press Enter. For example: 135.62.88.157. The

browser searches for and opens the Web page for the instrument.

3. Select Instrument Control (e*Scope®). The browser displays the instrument screen.

4. Use a mouse to select and interact with the instrument controls shown in the Web browser. If your remote PC or laptop has

a touch screen monitor, you can use the remote touchscreen monitor to access the instrument controls.

NOTE. When you access the instrument from an e*Scope browser, you cannot directly paste text (such as path, IP address information, and so on) from the PC to an instrument menu field. You must use an intermediate clipboard function that is available in the e*Scope application.

Use the following steps to copy text from an e*Scope-connected PC to the instrument:

Open a connection to the instrument using e*Scope.

Select and copy the text on your PC.

In e*Scope, press Ctrl-Alt-Shift to open the Clipboard menu.

Paste the text into the Clipboard field.

Press Ctrl-Alt-Shift to close the browser Clipboard menu.

Use e*Scope to open the instrument menu to which to paste content, and position the cursor in the field where you want to paste the text.

Press Ctrl-V (on real keyboard or from virtual keyboard) to paste the text from the e*Scope browser clipboard to the menu field.

Repeat steps 4.b through 4.g to copy and paste other text from the PC to the instrument.

56 MSO6B Installation and Safety Manual

Operating basics

Connect the oscilloscope to a PC using a USB cable

Use a USB cable to connect the oscilloscope directly to a PC for remote instrument control.

1. On the oscilloscope, select Utility > I/O from the menu bar.

2. Tap USB Device Port Settings.

3. Confirm that the USB Device Port control is On (default setting).

4. Connect a USB cable from the PC to the USB Device port on the rear of the instrument.

5. If using the USB connection to remotely control the oscilloscope using GPIB commands, set the GPIB Talk/Listen Address

for your configuration (0 - 30).

MSO6B Installation and Safety Manual 57

Operating basics

58 MSO6B Installation and Safety Manual

Cleaning the instrument

Cleaning

Use a dry, soft cotton cloth to clean the outside of the unit. If any dirt remains, use a cloth or swab dipped in a 70% isopropyl alcohol solution. Use a swab to clean narrow spaces around controls and connectors. Do not use any liquid cleaning agents or chemicals that could damage the touch screen, case, controls, markings or labels, or possibly infiltrate the case.

MSO6B Installation and Safety Manual 59

Cleaning the instrument

60 MSO6B Installation and Safety Manual

Index

A knob, 7 Acquisition controls, 7 acquisition menu, open, 43 add

a channel to the display, 39 a measurement badge, 46 a measurement plot, 49 a search badge, 51 measurement statistical readouts to badge, 21 signal to the screen, 39 waveform to the screen, 39

Add New

Bus waveform button, 16 Math waveform button, 16 Ref waveform button, 16

AFG option, 16 AFG Out (rear panel), 14 automatic probe compensation (TPP series), 35 Autoset, 41 Autoset button, 7 AUX Out (rear panel), 14 avoid pinching when rotate handle, 1

B knob, 7 badge types, 20, 21, 23–28 badges, 20, 21, 23–28 Bus button, 7 bus waveforms, 45

cable lock, 14 Callout button, 15 change display settings, 53 change measurement settings, 48 channel badge, 20, 21, 23–28 Channel buttons (front panel), 7 channel menu, 40 channel settings, 40

channel vertical parameters menu, 40 Clear button, 7 clipping message, 20, 21, 23–28 clock format (12/24 hr), how to set, 33 common touchscreen UI tasks, 31 compensate TPP series probes, 35 configuration menus, 28 configure a measurement, 48 connect lock cable, 3 connect to a network, 37 connecting probes, 4, 5 correct handle rotate, 1 cursor readout badge, 23 Cursors button, 7 Cursors button (touchscreen), 15 cursors menu, 53

Default Setup button, 7 delete a measurement badge, 52 display a channel, 39 display cursors, 53 Draw-a-Box button (Zoom), 30 DVM option, 16 dynamic range limit marker, 16

e*Scope, 56 Environment requirements, 2 Errors, 25 Ethernet port (rear panel), 14 Ethernet, connect to, 37 expansion point, waveform, 16

Fast Acq button, 7 firmware, how to update, 33, 34 FlexChannel connectors (front panel), 7 Force button, 7

MSO6B Installation and Safety Manual

Index

front panel

Acquisition, 7 Autoset button, 7 Aux In, 7 Aux Trig, 7 Bus button (front panel), 7 Channel buttons (front panel), 7 Clear button, 7 Cursors button, 7 Default Setup, 7 description, 7 Fast Acq button, 7 FlexChannel connectors, 7 Force button, 7 High Res button, 7 Horizontal, 7 Level knob, 7 Math button (front panel), 7 Miscellaneous, 7 Mode button, 7 multipurpose knobs, 7 Navigate buttons (front panel), 7 Position knob, 7 Position knob (horizontal), 7 probe compensation connectors, 7 Ref button (front panel), 7 Run/Stop button, 7 Scale knob, 7 Scale knob (horizontal), 7 Single/Seq button, 7 Slope button, 7 Touch Off button, 7 Trigger, 7 USB ports, 7 Vertical, 7 Zoom button (front panel), 7 Zoom/Pan knobs (horizontal), 7

GPIB talk/listen address, 57 graticule intensity, 53 graticule style, 53

handle rotate, 1 handles, analog and digital, 16 High Res button, 7 Horizontal controls, 7 horizontal menu, open, 44 how to

add a measurement, 46 add a measurement plot, 49 Add bus waveform, 45 Add math waveform, 45 Add reference waveform, 45 add waveform to screen, 39 change display settings, 53 change graticule intensity, 53 change graticule style, 53 change measurement settings, 48 change persistence, 53 change waveform intensity, 53 change waveform interpolation, 53 check power-on self tests results, 4 compensate TPP series probes, 35 connect probes, 4, 5 connect to network, 37 connect to PC using USB cable, 57 delete a measurement, 52 display cursors, 53 download, install firmware, 33, 34 open acquisition menu, 43 open horizontal menu, 44 quickly display waveform (Autoset), 41 remote access the instrument (from Web), 56 run signal path compensation (SPC), 34 search on an event, 51 set acquisition parameters, 43 set channel vertical parameters, 40 set clock format (12/24 hr), 33 set GPIB talk/listen address, 57 set horizontal parameters, 44 set probe deskew, 40 set probe parameters, 40 set time zone, 33

62 MSO6B Installation and Safety Manual

Index

set trigger parameters, 42 update firmware, 33, 34 use Autoset, 41 use mouse with the UI, 31

How to

change display mode (stacked, Overlay), 53

inactive channel buttons, 16 input signal level requirements, 2 intensity, graticule, 53 intensity, waveform, 53

knob A, 7 knob B, 7

move cursors, 53 multipurpose knobs, 7

Navigate buttons (horizontal), 7 navigation buttons, badges, 20, 21, 23–28 network, connect to, 37

open acquisition menu, 43 open horizontal menu, 44 operating

altitude range, 2 humidity range, 2 temperature range, 2

operating power requirements, 2 overlay mode (waveforms), 53

LAN port (rear panel), 14 LAN, connect to, 37 Level knob, 7 Level knob LED, 7 lock to bench or rack, 3

marking waveform events (search), 51 Mask Test badge, 23 Math button, 7 math waveforms, 45 Measure button, 15 measurement

plots, 49

measurement badge, 20, 21, 23–28 measurement badge, delete, 52 Menu bar, 15 menu panels, 28 menus, 28 Miscellaneous controls, 7 Mode button (front panel), 7 More button, 15 mouse touchscreen UI equivalents, 31

Pan, 30 panels, menu, 28 persistence, waveform, 53 pinching and handle rotate, 1 plot a measurement, 49 Plot button, 15 Position knob, 7 Position knob (horizontal), 7 power cord connector (rear panel), 14 power requirements, 2 power standby mode, 3 power-on test results, 4 powering on or off, 3 probe compensation connectors, 7 probe deskew, set, 40 Probe errors, 25 probe inputs, 7 probe parameters, set, 40 probes, connecting, 4, 5 proper handle rotate, 1

MSO6B Installation and Safety Manual 63

Index

rack mount kit information, 5 rear panel

AFG Out, 14 AUX Out, 14 cable lock, 14 Ethernet port (RJ-45), 14 LAN port (RJ-45), 14 power cord, 14 security cable lock, 14 USB Device port, 14 USB Host ports, 14 video output, 14

rear panel connections, 14 record view, waveform, 16 Ref button, 7 Ref In, 14 Ref In (rear panel), 14 reference waveforms, 45 remote access (e*Scope), 56 remote access (Web-based), 56 remove AC power from instrument, 3 requirements

altitude, 2 environment, 2 humidity, 2 power, 2 signal inputs, 2 temperature, 2

Results bar, 15 Results Table button, 15 run signal path compensation, 34 Run/Stop button, 7

Save button, 7 scale buttons, badge, 20, 21, 23–28 Scale knob, 7 Scale knob (horizontal), 7 search badge, 20, 21, 23–28 Search button, 15 searching for events, 51 security cable lock, 14

set

clock format (12/24 hr), 33 GPIB talk/listen address, 57 probe deskew, 40 probe parameters, 40 time zone, 33

Settings bar, 15 show a measurement, 46 signal input levels, 2 Single/Seq button, 7 Slope button (front panel), 7 SPC (signal path compensation), 34 stacked mode (waveforms), 53 standard accessories, 1

TekVPI input connectors, 7 time zone, how to set, 33 Touch Off button, 7 touchscreen UI tasks, 31 trigger

level indicators, 16 position indicator, 16

Trigger controls, 7 trigger menu, 42 trigger the oscilloscope, 42 turn instrument on or off, 3

USB cable, connect to PC, 57 USB Device port (rear panel), 14 USB Host ports (rear panel), 14 USB ports (front panel), 7 use cursors, 53 using mouse with the touchscreen, 31

Vertical controls, 7 video output (rear panel), 14

64 MSO6B Installation and Safety Manual

Index

waveform

expansion point, 16 intensity, 53 persistence, 53 record view, 16

waveform badge, 20, 21, 23–28 Waveform View, 15

Zoom box, 30 Zoom button (front panel), 7 zoom icon, 16 Zoom overview, 30 Zoom title bar, 30 Zoom/Pan knobs (horizontal), 7

MSO6B Installation and Safety Manual 65

Index

66 MSO6B Installation and Safety Manual

6 シリーズ B ミックスド・シグナル・オシロスコープ MSO6xB 型

設置と安全性に関するマニュアル

警告

保守点検に関する説明は、資格のあるサービス担当者のみを対象としています。危害がおよぶ恐れがありますので、資格がない限り保守点検を行わないでください。保守点検を実行する前に、すべての安全性に関するサマリをご覧ください。

6 シリーズ B MSO 製品ファームウェア V1.28 以降に対応

www.tek.com

071-3749-00

Copyright ©Tektronix.All rights reserved.使用許諾ソフトウェア製品は、Tektronix またはその子会社や供給者が所有するもので、米国著作権法および国際条約の規定によって保護されています。Tektronix 製品は、登録済および出願中の米国その他の国の特許等により保護されています。本書の内容は、既に発行されている他の資料の内容に代わるものです。また、本製品の仕様および価格は、予告なく変更させていただく場合がございますので、予めご了承ください。

TEKTRONIX および TEK は Tektronix, Inc. の登録商標です。

当社へのお問合せ

Tektronix, Inc.

14150 SW Karl Braun Drive P.O. Box 500 Beaverton, OR 97077 USA

製品情報、代理店、サービス、およびテクニカル・サポート：

■

北米：1-800-833-9200 までお電話ください。

■

世界の他の地域では、www.tek.com にアクセスし、お近くの代理店をお探しください。

安全性に関する重要な情報 ......................................................................................................................... iii

安全にご使用いただくために .................................................................................................................. iii

安全に保守点検していただくために ...................................................................................................... vi

本マニュアル内の用語 ............................................................................................................................. vi

本機に関する用語 .................................................................................................................................... vi

本製品に使用される記号 ....................................................................................................................... vii

適合性に関する情報 ...................................................................................................................................... ix

EMC 適合性 ................................................................................................................................................ ix

安全性 .......................................................................................................................................................... x

環境基準に対する適合性 ....................................................................................................................... xi

まえがき ........................................................................................................................................................... xiii

主な特長 .................................................................................................................................................... xiii

関連するマニュアル ................................................................................................................................ xiv

機器のインストール

同梱アクセサリの確認 .............................................................................................................................. 1

ハンドルの安全な回転 .............................................................................................................................. 1

動作要件 ...................................................................................................................................................... 2

入力信号要件 ............................................................................................................................................. 2

機器の固定（ロック） .................................................................................................................................. 3

機器の電源を入れる ................................................................................................................................. 3

パワーオン・セルフ・テストでの機器の合格の確認 ............................................................................ 4

プローブの機器への接続 ........................................................................................................................ 5

ラックマウント・オプションに関する情報 ................................................................................................ 6

機器の詳細

前面パネル・コントロールおよびコネクタ（4/5/6 シリーズ MSO） ........................................................ 7

後部パネルの接続部 .............................................................................................................................. 14

ユーザ・インタフェース・スクリーン ....................................................................................................... 15

ユーザ・インタフェースの要素 ............................................................................................................... 18

バッジ .......................................................................................................................................................... 21

コンフィグレーション・メニュー ................................................................................................................ 29

MSO6B

ズーム・ユーザ・インタフェースの要素 ................................................................................................ 31

一般タスクへのタッチ・スクリーン・インタフェースの使用 ................................................................ 32

型の設置と安全性に関するマニュアル i

本機の設定

タイム・ゾーンとクロック・リードアウト・フォーマットの設定 .............................................................. 35

最新ファームウェアのダウンロードおよびインストール ................................................................... 35

信号経路補正（SPC）の実行 .................................................................................................................. 37

TPP シリーズ・プローブの補正 .............................................................................................................. 37

ネットワークヘの接続（LAN） .................................................................................................................. 39

基本操作

ディスプレイへのチャンネル波形の追加 ............................................................................................ 41

チャンネル設定または波形設定の構成 .............................................................................................. 42

波形の高速表示（オートセット） ............................................................................................................. 43

信号にトリガをかける方法 ..................................................................................................................... 44

アクイジション・モードの設定 ................................................................................................................. 46

水平軸パラメータの設定 ........................................................................................................................ 47

演算波形、リファレンス波形またはバス波形の追加 ........................................................................ 47

測定の追加 ............................................................................................................................................... 49

測定の構成 ............................................................................................................................................... 51

測定のプロットの追加 ............................................................................................................................. 52

検索の追加 ............................................................................................................................................... 54

測定バッジまたは検索バッジの削除 ................................................................................................... 56

波形ビュー設定の変更 ........................................................................................................................... 56

カーソルの表示および構成 ................................................................................................................... 57

Web ブラウザからの e*Scope®リモート・アクセス（標準機器） ........................................................ 60

USB ケーブルによるオシロスコープの PC への接続 ........................................................................ 61

機器のクリーニング

クリーニング .............................................................................................................................................. 63

ii MSO6B 型の設置と安全性に関するマニュアル

安全性に関する重要な情報

このマニュアルには、操作を行うユーザの安全を確保し、製品を安全な状態に保つために順守しなければならない情報および警告が記載されています。

本機の点検にあたっては「安全にご使用いただくために」に続く「安全に保守点検していただくために」を参照して、事故防止につとめてください。

安全にご使用いただくために

製品は指定された方法でのみご使用ください。人体への損傷を避け、本製品や本製品に接続されている製品の破損を防止するために、安全性に関する次の注意事項をよくお読みください。すべての指示事項を注意深くお読みください。必要なときに参照できるように、説明書を安全な場所に保管しておいてください。

本製品は該当する地域の条例や国内法令に従って使用しなければなりません。

本製品を正しく安全にご使用になるには、このマニュアルに記載された注意事項に従うだけでなく、一般に認められている安全対策を徹底しておく必要があります。

本製品は訓練を受けた専門知識のあるユーザによる使用を想定しています。

製品のカバーを取り外して修理や保守、または調整を実施できるのは、あらゆる危険性を認識した専門的知識のある適格者のみに限定する必要があります。

使用前に、既知の情報源と十分に照らし合わせて、製品が正しく動作していることを常にチェックしてください。

本製品は危険電圧の検出用にはご利用になれません。

危険な通電導体が露出している部分では、感電やアーク・フラッシュによってけがをするおそれがありますので、保護具を使用してください。

本製品をご使用の際に、より大きな他のシステムにアクセスしなければならない場合があります。他のシステムの操作に関する警告や注意事項については、その製品コンポーネントのマニュアルにある安全に関するセクションをお読みください。

本機器をシステムの一部としてご使用になる場合には、そのシステムの構築者が安全性に関する責任を果たさなければなりません。

火災や人体への損傷を避けるには

適切な電源コードを使用してください：本製品用に指定され、使用される国で認定された電源コードのみを使用してください。他の製品の電源コードは使用しないでください。

本製品を接地してください：本製品は、電源コードのグランド線を使用して接地します。感電を避けるため、グランド線をアースに接続する必要があります。本製品の入出力端子に接続する前に、製品が正しく接地されていることを確認してください。電源コードのグランド接続を無効にしないでください。

電源を切断してください：電源コードの取り外しによって主電源が遮断されます。スイッチの位置については、使用説明書を参照してください。電源コードの取り扱いが困難な場所には設置しないでください。必要に応じてすぐに電源を遮断できるように、ユーザが常にアクセスできる状態にしておく必要があります。

接続と切断の手順を守ってください：プローブとテスト・リードが電圧源に接続されている間は接続または切断しないでください。絶縁型の電圧プローブ、テスト・リード、およびアダプタは、製品に付属する製品か、または当社により特別に指定された製品のみを使用してください。

MSO6B

型の設置と安全性に関するマニュアル iii

安全性に関する重要な情報

すべての端子の定格に従ってください：発火や感電の危険を避けるために、本製品のすべての定格とマーキングに従ってください。本製品に電源を接続する前に、定格の詳細について、製品マニュアルを参照してください。測定カテゴリ（CAT）の定格および電圧と電流の定格については、製品、プローブ、またはアクセサリのうちで最も低い定格を超えないように使用してください。1：1 のテスト・リードを使用するときは、プローブ・チップの電圧が直接製品に伝わるため注意が必要です。

コモン端子を含むいかなる端子にも、その端子の最大定格を超える電圧をかけないでください。

端子の定格電圧を超えてコモン端子をフローティングさせないでください。

本製品の測定端子は、AC 電源、カテゴリ II、III、および IV 回路には使用できません。

カバーを外した状態では使用しないでください：カバーやパネルを外した状態やケースを開いたまま動作させないでください。危険性の高い電圧に接触してしまう可能性があります。

露出した回路への接触は避けてください：電源が投入されているときに、露出した接続部分やコンポーネントに触れないでください。

故障の疑いがあるときは使用しないでください：本製品に故障の疑いがある場合には、資格のあるサービス担当者に検査を依頼してください。

製品が故障している場合には、使用を停止してください。製品が故障している場合や正常に動作していない場合には、製品を使用しないでください。安全上の問題が疑われる場合には、電源を切って電源コードを取り外してください。誤って使用されることがないように、問題のある製品を区別しておいてください。

使用前に、電圧プローブ、テスト・リード、およびアクセサリに機械的損傷がないかを検査し、故障している場合には交換してください。金属部が露出していたり、摩耗インジケータが見えているなど、損傷が見られるプローブまたはテスト・リードは使用しないでください。

使用する前に、製品の外観に変化がないかよく注意してください。ひび割れや欠落した部品がないことを確認してください。

指定された交換部品のみを使用するようにしてください。

湿気の多いところでは動作させないでください：機器を寒い場所から暖かい場所に移動する際には、結露にご注意ください。

爆発性のガスがある場所では使用しないでください：

製品の表面を清潔で乾燥した状態に保ってください：製品の清掃を開始する前に、入力信号を取り外してください。

適切に通気してください：適切な通気が得られるように製品を設置できるように、マニュアルの設置手順を参照してください。

製品には通気用のスロットや開口部があります。その部分を覆ったり、通気が妨げられたりすることがないようにしてください。開口部には異物を入れないでください。

安全な作業環境を確保してください：製品は常にディスプレイやインジケータがよく見える場所に設置してください。

キーボードやポインタ、ボタン・パッドを不適切に使用したり、長く押しすぎたりしないでください。キーボードやポインタの使用を誤ると、大けがにつながる可能性があります。

作業場が該当する人間工学規格を満たしていることを確認してください。ストレスに由来するけががないように、人間工学の専門家に助言を求めてください。

製品を持ち上げたり運んだりする作業は慎重に行ってください。本製品には持ち運び用のハンドルが取り付けられています

iv MSO6B 型の設置と安全性に関するマニュアル

安全性に関する重要な情報

本製品には指定された当社のラック取り付け金具のみを使用してください。

プローブとテスト・リード

プローブやテスト・リードを接続する前に、電源コネクタからの電源コードを適切に接地されたコンセントに接続してください。

感電を避けるために、常に指はプローブの指ガードまたは触覚段差より後方に保ってください。

使用しないプローブ、テスト・リード、アクセサリはすべて取り外してください。

測定に使用するプローブ、テスト・リード、アダプタは、測定カテゴリ（CAT）、電圧、温度、高度、アンペア数の定格が適切なもののみを使用してください。

高電圧に注意：使用するプローブの電圧定格について理解し、その定格を超えないようにしてください。特に次の

2 つの定格についてはよく理解しておく必要があります。

■

プローブ・チップとプローブの基準リード間の最大測定電圧

■

プローブ基準リードとアース間の最大フローティング電圧

上記の 2 つの電圧定格はプローブと用途によって異なります。詳細については、プローブのマニュアルの仕様関連セクションを参照してください。

警告：感電を防止するために、オシロスコープの入力

BNC

コネクタ、プローブ・チップ、またはプローブ基準リード

の最大測定電圧や最大フローティング電圧を超えないように注意してください。

接続と切断の手順を守ってください：プローブ出力を測定器に接続してから、プローブを被測定回路に接続してください。被測定回路にプローブの基準リードを接続してから、プローブ入力を接続してください。プローブ入力とプローブの基準リードを被測定回路から切断した後で、プローブを測定器から切断してください。

接続と切断の手順を守ってください：被測定回路の電源を切ってから、電流プローブの接続あるいは切断を行ってください。

プローブの基準リードは、グランドにのみ接続してください。

電流プローブを、その定格電圧を超える電圧または周波数がかかっている電線に接続しないでください。

プローブとアクセサリを検査してください：使用前には必ずプローブとアクセサリに損傷がないことを確認してください（プローブ本体、アクセサリ、ケーブル被覆などの断線、裂け目、欠陥）。損傷がある場合には使用しないでください。

グランド基準のオシロスコープの使用：グランド基準のオシロスコープで使用する場合、プローブの基準リードはフローティングさせないでください。基準リードは接地電位（0V）に接続しなければなりません。

フローティング測定の使用：本プローブの基準リードは、定格フローティング電圧を超えてフローティングさせないでください。

MSO6B 型の設置と安全性に関するマニュアル v

安全性に関する重要な情報

リスク評価の警告と情報

安全に保守点検していただくために

「安全に保守点検していただくために」のセクションには、製品の保守点検を安全に行うために必要な詳細な情報が記載されています。資格のあるサービス担当者以外は、保守点検手順を実行しないでください。保守点検を行う前には、この「安全に保守点検していただくために」と「安全にご使用いただくために」をお読みください。

感電を避けるため、：露出した接続部には触れないでください。

保守点検は単独で行わないでください。：応急処置と救急蘇生ができる人の介在がない限り、本製品の内部点検や調整を行わないでください。

電源を切断してください。：保守点検の際にカバーやパネルを外したり、ケースを開く前に、感電を避けるため、製品の電源を切り、電源コードを電源コンセントから抜いてください。

電源オン時の保守点検には十分注意してください。：本製品には、危険な電圧や電流が存在している可能性があります。保護パネルの取り外し、はんだ付け、コンポーネントの交換をする前に、電源の切断、バッテリの取り外し（可能な場合）、テスト・リードの切断を行ってください。

修理後の安全確認。：修理を行った後には、常にグランド導通と電源の絶縁耐力を再チェックしてください。

本マニュアル内の用語

本マニュアルでは以下の用語を使用しています。

警告：人体や生命に危害をおよぼすおそれのある状態や行為を示します。

注意：本機やその他の接続機器に損害を与えるおそれのある状態や行為を示します。

本機に関する用語

本機では次の用語を使用します。

■

危険：ただちに人体や生命に危険をおよぼす可能性があることを示します。

■

警告：人体や生命に危険をおよぼす可能性があることを示します。

■

注意：本製品を含む周辺機器に損傷を与える可能性があることを示します。

vi MSO6B 型の設置と安全性に関するマニュアル

安全性に関する重要な情報

本製品に使用される記号

製品にこの記号が表記されているときは、マニュアルを参照して、想定される危険性とそれらを回避するために必要な行動について確認してください（マニュアルでは、この記号はユーザに定格を示すために使用される場合があります。）

本製品では、次の記号を使用します。

MSO6B 型の設置と安全性に関するマニュアル vii

安全性に関する重要な情報

viii MSO6B 型の設置と安全性に関するマニュアル

適合性に関する情報

このセクションでは、本製品が適合している EMC 基準、安全基準、および環境基準について説明します。この製品は専門家および訓練を受けた人のみが使用することを目的としています。家庭での使用や子供による使用に対応して設計されていません。

以下の適合性に関するご質問は、以下の住所宛に、直接お問い合わせいただくこともできます：

Tektronix, Inc.

PO Box 500, MS 19-045

Beaverton, OR 97077, USA

www.tek.com

EMC 適合性

欧州 EMC 指令

指令 2014/30/EU 電磁環境両立性に適合します。『Official Journal of the European Communities』に記載の以下の基準に準拠します。

EN 61326-1、EN 61326-2-1. 測定、制御、および実験用途の電子機器を対象とする EMC 基準：

■

CISPR 11：グループ 1、クラス A、放射および伝導エミッション

1 2 3 4

■

IEC 61000-4-2：静電気放電イミュニティ

■

IEC 61000-4-3：RF 電磁界イミュニティ

■

IEC 61000-4-4：電流高速トランゼント／バースト・イミュニティ

■

IEC 61000-4-5：電力線サージ・イミュニティ

■

IEC 61000-4-6：伝導 RF イミュニティ

■

IEC 61000-4-8：電力周波数磁界イミュニティ・テスト

■

IEC 61000-4-11：電圧低下と瞬時停電イミュニティ

EN 61000-3-2. AC 電源ライン高調波エミッション

EN 61000-3-3. 電圧の変化、変動、およびフリッカ

本製品は住居区域以外での使用を目的としたものです。住居区域で使用すると、電磁干渉の原因となることがあります。

本製品をテスト対象に接続した状態では、この規格が要求するレベルを超えるエミッションが発生する可能性があります。

ここに挙げた各種 EMC 規格に確実に準拠するには、ケーブル・シールドとコネクタ・シェルを低インピーダンスで接続できるように、高品質なシールドを持つインタフェース・ケーブルが必要です。

著者：被測定装置が性能基準 B 過渡イミュニティ・テストからの回復に 10 秒以上かかると、機器がリブートする条件を列挙したテキストをここに追加してください。

著者：この規格に適合するために特別に実施しなければならない測定があるなら、それを列挙したテキストをここに追加してください。

MSO6B 型の設置と安全性に関するマニュアル ix

適合性に関する情報

欧州 EMC 指令

指令 2014/30/EU 電磁環境両立性に適合します。『Official Journal of the European Communities』に記載の以下の基準に準拠します。

オーストラリア／ニュージーランド適合宣言―EMC

ACMA に従い、次の規格に準拠することで Radiocommunications Act の EMC 条項に適合しています。

■

EN 61326-1 および EN 61326-2-1：グループ 1、クラス A、放射および伝導エミッション

安全性

このセクションでは、製品が適合している安全規格およびその他の基準について説明します。

EU 適合宣言 - 低電圧

『Official Journal of the European Union』にリストされている次の仕様に準拠します。

低電圧指令 2014/35/EU：

■

EN 61010-1：測定、制御、および実験用途の電子装置に対する安全基準 – 第 1 部：一般要件。

■

EN 61010-2-030：測定、制御、および実験用途の電子装置に対する安全基準 – 第 2-030 部：試験回路および

測定回路の特定要求事項。

米国の国家認定試験機関のリスト

■

UL 61010-1：測定、制御、および実験用途の電子装置に対する安全基準 – 第 1 部：一般要件。

■

UL 61010-2-030：測定、制御、および実験用途の電子装置に対する安全基準 – 第 2-030 部：試験回路および

測定回路の特定要求事項。

カナダ規格

■

CAN/CSA-C22.2 No. 61010-1：測定、制御、および実験用途の電子装置に対する安全基準 – 第 1 部：一般要

件。

■

CAN/CSA-C22.2 No. 61010-2-030：測定、制御、および実験用途の電子装置に対する安全基準 – 第 2-030 部：

試験回路および測定回路の特定要求事項。

その他の基準に対する適合性

■

IEC 61010-1：測定、制御、および実験用途の電子装置に対する安全基準 – 第 1 部：一般要件。

■

IEC 61010-2-030：測定、制御、および実験用途の電子装置に対する安全基準 – 第 2-030 部：試験回路および

測定回路の特定要求事項。

機器の種類

テスト機器および計測機器。

x MSO6B 型の設置と安全性に関するマニュアル

適合性に関する情報

安全クラス

クラス 1 - アース付き製品。

プラグイン・モジュールまたは VXI モジュールの安全規格

安全規格は、（米国 NRTL またはカナダ認証機関により）適正に承認されたメインフレームにインストールされている場合にのみ有効です。

汚染度について

製品内部およびその周辺で発生する可能性がある汚染度の尺度です。通常、製品の内部環境は外部環境と同じ規定が適用されるものとみなされます。製品は、その製品に指定されている環境でのみ使用してください。

■

汚染度 1：汚染なし、または乾燥した非伝導性の汚染のみが発生します。このカテゴリの製品は、通常、被包性、密封性のあるものか、クリーン・ルームでの使用を想定したものです。

■

汚染度 2：通常、乾燥した非導電性の汚染のみが発生します。ただし、結露によって一時的な導電性が発生することもまれにあります。これは、標準的なオフィスや家庭内の環境に相当します。一時的な結露は製品非動作時のみ発生します。

■

汚染度 3：伝導性のある汚染、または結露のために伝導性のある汚染となる乾燥した非伝導性の汚染。これらは、温度、湿度のいずれも管理されていない屋内環境に相当します。日光や雨、風に対する直接の曝露からは保護されている領域です。

■

汚染度 4：伝導性のある塵、雨、または雪により持続的に伝導性が生じている汚染。これは一般的な屋外環境に相当します。

汚染度

汚染度 2（IEC 61010-1 の定義による）注：乾燥した屋内でのみ使用できます。

IP 定格

IP20（IEC 60529 で定義）。

主電源過電圧カテゴリ定格

過電圧カテゴリ II（IEC 61010-1 の定義による）

環境基準に対する適合性

このセクションでは、本製品が環境におよぼす影響について説明します。

有害物質に関する規制

RoHS2 指令 2011/65/EU に適合。

MSO6B 型の設置と安全性に関するマニュアル xi

適合性に関する情報

使用済み製品の処理方法

機器またはコンポーネントをリサイクルする際には、次のガイドラインを順守してください。

機器のリサイクル. 本製品の製造には天然資源が使用されています。この製品には、環境または人体に有害となる可能性のある物質が含まれているため、製品を廃棄する際には適切に処理する必要があります。有害物質の放出を防ぎ、天然資源の使用を減らすため、本製品の部材の再利用とリサイクルの徹底にご協力ください。

このマークは、本製品が WEEE（廃棄電気・電子機器）およびバッテリに関する指令 2012/19/EC および 2006/66/EC に基づき、EU の諸要件に準拠していることを示しています。リサイクル方法については、当社の Web サイトのサービス・セクション（www.tek.com/productrecycling）を参照してください。

本製品には小型のリチウム・メタル・ボタン電池が内蔵されています。使用済み電池の廃棄については、お住まいの地域の所轄官庁にお尋ねください。

過塩素酸塩の取り扱い. 本製品には CR リチウム電池が搭載されています。CR リチウム電池はカリフォルニア州法により過塩素酸塩材として規定され、特別な取り扱いが求められています。詳細については、Web サイト（dtsc.ca.gov/perchlorate）を参照してください。

バッテリの輸送

本機に含まれる小型リチウム一次ボタン電池のリチウム金属の含有量はセルあたり 1g を超えていません。また、メーカによりセルの種類が表記されており、UN Manual of Tests and Criteria Part III, Sub-section 38.3 の該当する要件を満たしています。リチウム・バッテリの輸送に際しては、その輸送手段に関わらず、製品を発送する前に、再パッケージ化やラベルの張替えなど、お客様の梱包方法に適用される輸送要件について、運送業者に確認するようにしてください。

xii MSO6B 型の設置と安全性に関するマニュアル

まえがき

本マニュアルには、製品の安全とコンプライアンス、オシロスコープの接続方法と電源供給方法、機器の機能と制御と基本操作に関する情報が記載されています。詳細については、製品の Help（ヘルプ）ファイルを参照してください。

主な特長

6 シリーズ B MSO をお買い求めいただきありがとうございます。6 シリーズ B MSO オシロスコープは、世界初の FlexChannel®入力を装備し、実質的にあらゆる設計において効率的かつ費用効果の高いミックスド・シグナル・デ

バッキングを実現します。

■

周波数帯域：1Ghz～10GHz

■

4、6、8 チャンネル（FlexChannel®入力）

■

各 FlexChannel 入力にはアナログ・プローブ（TekVPI®または BNC）または 8 チャンネルのデジタル・プローブ（TLP058 型 FlexChannel 対応ロジック・プローブ）のいずれも接続可能

■

FlexChannel では、それぞれ 8 つのデジタル・チャンネル（TLP058 型を使用）、アナログ波形、スペクトラム波形

を表示できるほか、同じチャンネルでアナログとスペクトラムを同時に表示しながら、それぞれの表示で独立したコントロールを使用できる

■

FlexChannel 入力は TekVPI®プローブ対応

■

大型 15.6 インチ HD（1920 × 1080 ピクセル）容量性タッチ・スクリーン・ディスプレイ

■

タッチ・スクリーン使用を最適化し主要設定にすばやくアクセスできるユーザ・インタフェース

■

画面上の所定の水平「スライス」に各チャンネルまたは波形を配置する Stacked（スタック）モード。信号の表示と測定がより鮮明に

■

サンプル・レート：50GS/s

■

すべてのチャンネルでレコード長 62.5M ポイント（オプションでレコード長 125M、250M、500M、および 1G も使用可能）

■

最大波形取り込みレート 500,000 波形以上／秒

■

スペクトラム表示：シンプルで直感的な周波数領域解析が可能。時間領域とは独立したコントロールを使用して、各チャンネルのスペクトラム・トレースを表示できる

■

表示できる演算波形、基準波形、バス波形の設定限度はなし（実際の波形数は使用可能なシステム・メモリに依存）。

■

組み込みオプション機能として、50MHz の任意関数発生器（AFG）、デジタル電圧計（DVM）トリガ周波数カウンタをご用意

■

オプションのシリアル・トリガ機能を使用することで、航空／宇宙通信／オーディオ／車載用／コンピュータ／組込みシリアル・バスから目的のプロトコル・レベルのイベントを特定できる。「シリアル・バスとトリガ・オプション」のヘルプ・トピックを参照するか、または詳細は 6 シリーズ MSO のシリアル・トリガ／解析アプリケーション・データ・シート（当社部品番号 48W-61353-x）を参照

■

パワー、DPM、IMDA、ジッタ測定オプションを使用することで、さまざまな測定／解析機能を追加可能。「拡張パワー解析」、「DPM 解析」、および「拡張ジッタ解析」のヘルプ・トピックを参照

MSO6B

注： 6および8チャンネル機種では、

型の設置と安全性に関するマニュアル xiii

IMDA（MSO64B

型および

MSO68B

型）オプションをご利用になれます。

まえがき

機器のインストール

同梱アクセサリの確認

注文したものがすべてお手元に届いたことを確認してください。足りないものがある場合には、当社カスタマ・サポートにお問い合わせください。北米：1-800-833-9200 までお電話ください。世界の他の地域では、www.tek.com にアクセスし、お近くの代理店をお探しください。

本機の付属品一覧を見て、注文品とスタンダード・アクセサリがすべて届いているか確認してください。シリアル・バスとトリガ・オプション、パワー測定オプションなど工場出荷時実装オプションを購入した場合には、ヘルプ(Help) >バージョン情報(About)をタップして、そのオプションが実装オプション(Installed Options)表に掲載されていることを確認してください。

ハンドルの安全な回転

正しいプロセスを使用することで、ハンドルを回している時に親指や後部パネル接続ケーブルが挟まれないようにします。

注意：本機のハンドルの上部をつかんで回します。ハンドルの側部をつかんで回さないでください。親指の付け根がハンドルとケースの間に挟まれる可能性があります。

ハンドルとケースの間にケーブルを巻き付けている場合には、ハンドルを回すときにケーブルが挟まれないように注意してください。

MSO6B 型の設置と安全性に関するマニュアル 1

機器のインストール

動作要件

高い測定精度と安全な機器動作を確保するために、動作温度、電力、高度、信号入力電圧の各必須範囲内で本機を使用してください。

環境要件

特性説明動作温度 0℃～＋ 50℃（＋ 32°F～＋ 122°F）

正しく冷却するために、本機の側面から 2 インチ（51mm）の範囲には障害物を置かないでください。

動作湿度相対湿度 5～90%（＋ 40℃まで）

40℃～50℃の温度で 5%～55%の相対湿度、結露のないこと＋ 60℃以下で相対湿度 5%～90%（RH）、結露のないこと、最高湿球温度＋ 39℃

動作高度 3,000m（9,842 フィート）以下

電力要件

特性説明電源電圧 100V～240V 電源周波数 50/60Hz、100～240V

消費電力全機種：最大 500W

入力信号要件

入力信号を許容制限内に収めることで、正確な測定を確保し、アナログとデジタルのプローブまたは機器への損傷を防ぎます。

5/6 シリーズ MSO に接続されている入力信号が以下の要件の範囲内であることを確認します。

400Hz、115V

AC RMS

、±10%、単相

2 MSO6B 型の設置と安全性に関するマニュアル

Tektronix MSO64B, MSO66B, MSO68B Installation Manual

Specifications and Main Features

Frequently Asked Questions

User Manual

Table of Contents

Important safety information

General safety summary

Service safety summary

Terms in the manual

Terms on the product

Symbols on the product

Compliance Information

EMC compliance

Safety compliance

Environmental compliance

Preface

Key features

Related documents

Installing your instrument

Check shipped accessories

Safely rotate the handle

Operating requirements

Input signal requirements

Secure (lock) the instrument

Powering the instrument

Check that the instrument passes power-on self tests

Connecting probes to the instrument

Rackmount option information

Getting acquainted with your instrument

Front panel controls and connectors, 4/5/6 Series MSO

Rear panel connections

The user interface screen

The user interface elements

Badges

Configuration menus

The Zoom user interface elements

Using the touch screen interface for common tasks

Configure the instrument

Set the time zone and clock readout format

Download and install the latest instrument firmware

Run Signal Path Compensation (SPC)

Compensate the TPP Series probes

Connect to a network (LAN)

Operating basics

Add a channel waveform to the display

Configure channel or waveform settings

Quickly display a waveform (Autoset)

How to trigger on a signal

Set the acquisition mode

Set Horizontal parameters

Add a math, reference, or bus waveform

Add a measurement

Configure a measurement

Add a plot of a measurement

Add a Search

Delete a Measurement or Search badge

Change waveform view settings

Display and configure cursors

e*Scope® remote access from a Web browser (standard instrument)

Connect the oscilloscope to a PC using a USB cable

Cleaning the instrument

Cleaning

Index

安全性に関する重要な情報

安全にご使用いただくために

安全に保守点検していただくために

本マニュアル内の用語

本機に関する用語

本製品に使用される記号

適合性に関する情報

EMC 適合性

環境基準に対する適合性

まえがき

主な特長

関連するマニュアル

機器のインストール

同梱アクセサリの確認

ハンドルの安全な回転

動作要件

入力信号要件